Choke (sports) and Random-access memory: Difference between pages
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{{Refimprove|date=July 2007}} |
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[[Image:Memory module DDRAM 20-03-2006.jpg|right|thumb|Example of [[read/write memory|writable]] [[volatile memory|volatile]] random access memory: [[Synchronous]] [[Dynamic RAM]] [[DIMM|modules]], primarily used as main memory in [[personal computers]], [[workstation]]s, and [[server]]s.]] |
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In [[sports]], an individual athlete, or, more commonly, an athletic team collectively, is often said to have '''choked''' when failing to win a tournament or league championship and if certain other criteria are also met, especially if the player or team had been favored to win, or had squandered a large lead in the late stages of an event. The usage of the word "choke" in this sense is generally treated as [[slang]]. |
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{{Memory types}} |
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'''Random-access memory''' (usually known by its [[acronym]], '''RAM''') is a [[computer data storage]]. Today it takes the form of [[integrated circuit]]s that allow the stored [[data]] to be accessed in any order, i.e. at ''[[random access|random]]''. The word ''random'' thus refers to the fact that any piece of data can be returned in a [[constant time]], regardless of its physical location and whether or not it is related to the previous piece of data.<ref>''Strictly speaking, modern types of DRAM are therefore not truly (or technically) random access, as data are read in burst; the name DRAM has stuck however.''</ref> |
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The term may originate from the Salem witch trials. One test used to expose a witch required the woman in question to simply swallow one communion wafer. It was thought that if she were in fact a witch this task would be impossible. Countless women choked under the pressure.{{Fact|date=February 2007}} |
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This contrasts with storage mechanisms such as [[Magnetic tape|tapes]], magnetic discs and [[optical disc]]s, which rely on the physical movement of the recording medium or a reading head. In these devices, the movement takes longer than the data transfer, and the retrieval time varies depending on the physical location of the next item. |
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The opposite of choking is being "[[Clutch (sports)|Clutch]]," or rising to the occasion under pressure rather than collapsing under it. |
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The word RAM is mostly associated with [[Volatile memory|volatile]] types of memory (such as [[DRAM]] [[DIMM|memory modules]]), where the information is lost after the power is switched off. However, many other types of memory are RAM as well (i.e. ''Random Access Memory''), including most types of [[read only memory|ROM]] and a kind of [[flash memory]] called ''[[flash memory#NOR flash|NOR-Flash]]''. |
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==Use in the USA== |
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===National Football League=== |
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Use of the term "choke" in this context is most frequently encountered in the [[United States]], and appears to be of relatively recent origin, not becoming reasonably widespread until well into the 1960s. Since then, NFL teams popularly labeled chokers (or often, "choke artists") have included the [[Minnesota Vikings]] more or less throughout the 1970s, the [[San Diego Chargers]] in the late 1970s and early 1980s, the [[Buffalo Bills]] in the 1990s for their 4 straight Super Bowl losses and, most recently, the [[Philadelphia Eagles]] in the early 2000s, the Green Bay Packers in the 2008 NFC title game, and the [[San Diego Chargers]] in the mid 2000s <ref>[http://sports.espn.go.com/espn/page2/story?page=simmons/070119 ESPN Page 2 - The Sports Guy: We hate everything<!-- Bot generated title -->]</ref>. |
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In all instances the respective quarterbacks for these teams — [[Fran Tarkenton]], [[Dan Fouts]], [[Jim Kelly]], [[Donovan McNabb]] and [[Brett Favre]]; have also been stereotyped personally along with the entire teams themselves, {{Fact|date=February 2007}} McNabb adding to his reputation for choking with three interceptions in the Eagles' 24-21 loss to the [[New England Patriots]] in [[Super Bowl XXXIX]] after having been intercepted only eight times during the entire [[2004 NFL season|2004]] regular season. |
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==History== |
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[[Marty Schottenheimer]] has also been seen as a choker (as well as cursed) due to his 5-13 playoff record, which include losses to the [[Denver Broncos]] in the [[1986 NFL season|1986]] and [[1987 NFL season|1987]] AFC Championship Games as head coach of the [[Cleveland Browns]], thanks to The Drive and The Fumble respectively, losing in [[1995 NFL season|1995]] as the top seed in the AFC to the Colts when he coached the [[Kansas City Chiefs]], and as head coach of the Chargers, his loss as top seed again in the AFC to the Patriots in [[2006 NFL season|2006]], leading to loss of assistants, and ultimately, his firing less than 45 days after the game. |
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An early type of widespread ''writable'' random access memory was the [[magnetic core memory]], developed in 1949-1951, and subsequently used in most computers up until the development of the static and dynamic integrated RAM circuits in the late 1960s and early 1970s. Before this, computers used [[relay]]s, [[delay line]]s or various kinds of [[vacuum tube]] arrangements to implement "main" memory functions (i.e. hundreds or thousands of bits), some of which were ''random access'', some not. [[Latch]]es built out of vacuum tube triodes, and later, out of discrete [[transistor]]s, were used for smaller and faster memories such as registers and (random access) register banks. Prior to the development of integrated ROM circuits, ''permanent'' (or ''read-only'') random access memory was often constructed using [[semiconductor diode]] matrixes driven by [[address decoder]]s. |
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== Overview == |
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The [[New England Patriots]] are widely considered to be a [[dynasty]] after winning three [[Super Bowls]] in four seasons ([[Super Bowl XXXVI|XXXVI]], [[Super Bowl XXXVIII|XXXVIII]] and [[Super Bowl XXXIX|XXXIX]]). However, following 2007 season, the Patriots had a perfect 16-0 regular season, and had set many individual and team records. Then in [[Super Bowl XLII]], as the favored team, the Patriots scored only 14 points, their lowest total of the season, and their defense allowed New York Giants (incidentally a wildcard entrant in the 07 NFL playoffs) quarterback [[Eli Manning]] to lead his team to victory with a game-winning touchdown drive in the final minutes of the 4th quarter making it the biggest choke in NFL history. |
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===Types of RAM=== |
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Modern types of ''writable'' RAM generally store a [[Bit|bit of data]] in either the state of a [[flip-flop (electronics)|flip-flop]], as in [[static random access memory|SRAM]] (static RAM), or as a [[electric charge|charge]] in a [[capacitor]] (or [[transistor]] gate), as in [[dynamic random access memory|DRAM]] (dynamic RAM), [[EPROM]], [[EEPROM]] and [[flash memory|Flash]]. Some types have circuitry to detect and/or correct random faults called ''memory errors'' in the stored data, using [[parity bit]]s or [[Error detection and correction|error correction codes]]. RAM of the ''read-only'' type, [[read only memory|ROM]], instead uses a metal mask to permanently enable/disable selected transistors, instead of storing a charge in them. |
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As both SRAM and DRAM are ''volatile'', other forms of computer storage, such as [[disk storage|disks]] and [[magnetic tape data storage|magnetic tapes]], have been used as "permanent" storage in traditional computers. Many newer products instead rely on [[flash memory]] to maintain data between sessions of use: examples include [[PDA]]s, small music players, mobile phones, synthesizers, advanced calculators, industrial instrumentation and robotics, and many other types of products; even certain categories of [[personal computer]]s, such as the [[OLPC XO-1]], [[Asus Eee PC]], and others, have begun replacing magnetic disk with so called [[flash drive]]s (similar to fast [[memory card]]s equipped with an [[Integrated Drive Electronics|IDE]] or [[SATA]] interface). |
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===Major League Baseball=== |
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Fewer teams qualify for postseason play in [[Major League Baseball]] than in the NFL, so the "choke" label in [[baseball]] is more frequently appended to a team that blows a substantial lead late in a pennant race. Probably the two most prominent examples of this have been the [[Chicago Cubs]] (most notably in [[1969 in baseball|1969]], [[1973 in baseball|1973]], [[1984 in baseball|1984]], [[2003 in baseball|2003]] and [[2008 in baseball |2008]]) and the [[Boston Red Sox]] (most notably in [[1978 in baseball|1978]], when they relinquished a 14-game lead in their division, ultimately losing a one-game playoff for the division title to the [[New York Yankees]] after they and the Yankees had ended the regular season tied for first place). The plight of both the Cubs and Red Sox has often been attributed to a "curse" — the [[Curse of the Billy Goat]] in the former team's case and the [[Curse of the Bambino]] in the latter, although the Curse of the Bambino is widely regarded as having been broken in [[2004 in baseball|2004]], when the Red Sox won the [[2004 World Series|World Series]] for the first time since [[1918 World Series|1918]]; The Boston Red Sox were also involved in another heartbreaking choke in [[1986 World Series|1986]], when they lost a 2 run lead in the 10th inning of Game 6 (with the Sox leading 3 games to 2) when there were 2 men out and no one on base. The New York Mets rallied to win Game 6 (with help from Bill Buckner) and then went on to win Game 7 and take their first World Series title since [[1969 World Series|1969]]. Conversely, the Boston Red Sox benefitted greatly in 2004, when their archrival the [[New York Yankees]] blew a 3-0 series lead in the [[2004 American League Championship Series]], which the Red Sox came back to win with four straight victories, the first time in [[Major League Baseball]] history that has happened. It was a major choke for the Yankees and the Red Sox finally won the long-awaited [[World Series]] title. A summer 2008 poll on ESPN.com had the 2004 Yankees receiving 76% of the vote for "Biggest choke in sports history," with the runner-ups being [[Jean Van de Velde]]'s collapse at the [[1999 British Open]] with 12%, and the 2007 [[New England Patriots]] in [[Super Bowl XLII]] with 7%. (Citation needed) |
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There are two basic types of flash memory: the [[flash memory#NOR flash|NOR type]], which is capable of true random access, and the [[flash memory#NAND flash|NAND type]], which is not; the former is therefore often used in place of ROM, while the latter is used in most [[memory card]]s and [[solid-state drive]]s, due to a lower price. |
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The [[New York Mets]] completed a historic choke during the 2007 season, as they blew a 7 game lead with 17 games to play in the [[NL East]] on September 12th and lost the division to the [[Philadelphia Phillies]]. The Mets also choked away a 3 1/2 game lead in the 2008 season with 17 games to play and was again eliminated on the last day, becoming the only team to hold the dubious distinction. Also the [[Cleveland Indians]] blew a 3-1 series lead on the [[Boston Red Sox]] in the [[2007 American League Championship Series]] and the Red Sox went on to win the [[2007 World Series]]. |
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===Memory hierarchy=== |
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Many computer systems have a memory hierarchy consisting of [[CPU register]]s, on-die [[Static random access memory|SRAM]] caches, external [[cache]]s, [[DRAM]], [[paging]] systems, and [[virtual memory]] or [[swap space]] on a hard drive. This entire pool of memory may be referred to as "RAM" by many developers, even though the various subsystems can have very different [[access time]]s, violating the original concept behind the ''random access'' term in RAM. Even within a hierarchy level such as DRAM, the specific row, column, bank, rank, channel, or [[interleave]] organization of the components make the access time variable, although not to the extent that rotating [[storage media]] or a tape is variable. (Generally, the memory hierarchy follows the access time with the fast CPU registers at the top and the slow hard drive at the bottom.) |
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Athletes in individual sports have not been immune either, particularly in [[tennis]] ([[Virginia Wade]], dubbed "The Queen of the Centre Court Choke" by the [[United Kingdom|British]] [[tabloid]] press {{Fact|date=February 2007}} due to her long string of late-round defeats at [[Wimbledon Championships|Wimbledon]] — a tournament she did eventually win) and [[golf]] ([[Phil Mickelson]] until he finally won a "[[Men's major golf championships|major]]" golf tournament in 2004 — specifically, [[The Masters Tournament|The Masters]] — after a host of second- and third-place finishes in such events). [[Greg Norman]] and [[Jean van de Velde]] also have been labeled "choke artists."{{Fact|date=February 2007}} In 1996, Norman took a six-shot lead into the final round of The Masters, but ballooned to a 78, losing to [[Nick Faldo]] by five. [[1999|Three years later]], van de Velde had a three-shot lead going into the final hole of [[The Open Championship]], needing only a double-bogey 6 to win. He proceeded to shoot a 7 and eventually lost in a playoff. In bowling, the Area 4 3rd Watch RBT was set to win another trophy in 2008 but lost 3 straight games, one in which they were crushed by the 2nd watch team. In individual sports, a certain top player who is notorious for not winning a major championship are often dubbed "the best player to have not won a major." This term is often used in golf, notably with Mickelson's long Major drought. |
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In many modern personal computers, the RAM comes in an easily upgraded form of modules called '''[[DIMM|memory module]]s''' or '''[[DIMM|DRAM module]]s''' about the size of a few sticks of chewing gum. These can quickly be replaced should they become damaged or too small for current purposes. As suggested above, ''smaller'' amounts of RAM (mostly SRAM) are also integrated in the [[CPU]] and other [[IC]]s on the [[motherboard]], as well as in hard-drives, [[CD-ROM]]s, and several other parts of the computer system. |
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===Recidivism=== |
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The overall goal of using a memory hierarchy is to obtain the higher possible average access speed while minimizing the total cost of entire memory system. |
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[[Recidivism]] — that is to say, the same player or team coming close to winning the championship repeatedly without ever actually succeeding in doing so — is another aggravating factor, and indeed this condition is present in virtually all of the most proverbial examples of those castigated as chokers, notably British [[tennis]] player [[Tim Henman]], a perennial [[semi-finalist]] at [[Wimbledon (tennis)|Wimbledon]]. However, once the competitor does win a title, the "choke" tag is typically not reapplied even if the prior pattern of falling short resurfaces: For example, [[baseball]]'s [[Atlanta Braves]] are rarely characterized as chokers despite a lengthy overall record of futility in the postseason during the 1990s and early 2000s, because of one [[1995 World Series|World Series]] championship in [[1995 in baseball|1995]] unlike the Buffalo Bills in football who went to four straight Super Bowls without being able to win one. Golfer [[Phil Mickelson]] regularly choked away [[Major Championships]] before his victories at the [[2004 Masters Tournament]], [[2005 PGA Championship]], and [[2006 Masters Tournament]], but when he blew the [[2006 U.S. Open Golf Championship|2006 U.S. Open]], the "choker" label was not applied nearly as liberally as it had been before he won his first Major. |
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====Swapping==== |
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The [[Indianapolis Colts]] of the National Football League were routinely among the league's best teams in the early part of the 2000s, and had what many considered the best offense in the NFL, led by [[Pro Bowl]] [[quarterback]] [[Peyton Manning]]. However, despite the Colts potent offense, they were known equally as well for underachieving in the postseason, especially when facing the New England Patriots, who stopped the Colts short of the [[Super Bowl]] in 2003 and 2004. In 2005, the Colts got off to a 13-0 start (including a dominant victory over the Patriots), and finished the season 14-2, the best record in the league. However, Indianapolis lost their first playoff game at home against the eventual Super Bowl champion Pittsburgh Steelers. The Colts and Manning finally dispelled the "can't win the big one" moniker in 2006, at last defeating New England in a playoff game (the Colts rallied from an 18-point deficit in the 2nd quarter), and then defeated the [[Chicago Bears]] 29-17 in Super Bowl XLI, where Manning was named Super Bowl MVP. |
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If a computer becomes low on RAM during intensive application cycles, the computer can perform an operation known as "[[Paging|swapping]]". When this occurs, the computer temporarily uses [[hard drive]] space as additional memory. Constantly relying on this type of backup memory is called [[Thrash (computer science)|thrashing]], which is generally undesirable because it lowers overall system performance. In order to reduce the dependency on swapping, more RAM can be installed. |
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===Other uses of the "RAM" term=== |
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The [[Portland Trail Blazers]] of the [[National Basketball Association|NBA]] were also regularly accused of choking, reaching the playoffs every year from [[1980-81 NBA season|1981]] to [[2002-03 NBA season|2003]] without winning a championship. This included losses in the [[1990 NBA Finals|1990]] and [[1992 NBA Finals|1992]] [[NBA Finals]], as well as a collapse in the 4th quarter of the deciding 7th game of the [[2000 NBA Playoffs|2000]] [[Western Conference (NBA)|Western Conference]] finals against the [[Los Angeles Lakers]], in which they squandered a 15 point lead and lost the game by 5. <ref>[http://sportsillustrated.cnn.com/basketball/nba/2000/playoffs/news/2000/06/04/blazers_lakers_ap/ CNNSI.com - 2000 NBA Playoffs - Lakers' late rally stuns Blazers in Game 7 - Monday June 05, 2000 09:32 PM<!-- Bot generated title -->]</ref> |
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Other physical devices with read/write capability can have "RAM" in their names: for example, [[DVD-RAM]]. "Random access" is also the name of an indexing method: hence, disk storage is often called "random access" because the reading head can move relatively quickly from one piece of data to another, and does not have to read all the data in between. However the final "M" is crucial: "RAM" (provided there is no additional term as in "DVD-RAM") always refers to a solid-state device. |
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====RAM disks==== |
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On a more recent basketball example, the University of California, Los Angeles' basketball team failed to win a national title after reaching the NCAA Tournament's Final Four teams for the third consecutive year on April 5th, 2008. The choking label can be attached to the individual players on the team, many of whom have been varsity starters for three consecutive years. |
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Software can "partition" a portion of a computer's RAM, allowing it to act as a much faster hard drive that is called a [[RAM disk]]. Unless the memory used is non-volatile, a RAM disk loses the stored data when the computer is shut down. However, volatile memory can retain its data when the computer is shut down if it has a separate power source, usually a [[battery (electricity)|battery]]. |
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==== Shadow RAM ==== |
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Another recent example could be seen in the [[West Virginia Mountaineers]] losing to the struggling [[Pittsburgh Panthers]] on [[December 1]], [[2007]], on their home field, with a birth to the [[BCS National Championship]] on the line. West Virginia remains the most winning team in NCAA history without a National Championship. West Virginia still, however, finished the season as co-champions with Connecticut in the Big East Conference and, because of West Virginia's 66-21 victory over Connecticut on November 24, 2007, has played in a [[2008 BCS National Championship Game|BCS Bowl]] in January 2008, defeating the [[Oklahoma Sooners]] 48-28 in the [[Fiesta Bowl]] at [[Glendale, Arizona]]. |
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Sometimes, the contents of a ROM chip is copied to SRAM or DRAM to allow for shorter access times (as ROM may be slower). The ROM chip is then disabled while the initialized memory locations are switched in on the same block of addresses (often write-protected). This process, sometimed called ''shadowing'', is fairly common in both computers and [[embedded systems]]. |
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As a common example, the [[BIOS]] in typical personal computers often have an option called “use shadow BIOS” or similar. When enabled, functions relying on data from the BIOS’s ROM will instead use DRAM locations (most can also toggle shadowing of video card ROM or other ROM sections). Depending on the system, this may or may not give a performance boost. On some systems the benefit may be hypothetical because the BIOS is not used after booting in favour of direct hardware hardware access. Of course, somewhat less free memory is available when shadowing is enabled.<ref> {{cite web |url=http://hardwarehell.com/articles/shadowram.htm|title=Shadow Ram|accessdate=2007-07-24 |format=HTML}}</ref> |
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==International use== |
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* [[Leinster Rugby]] has a long history of early [[Heineken Cup]] exits, despite having a team of supposed stars. |
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==Recent developments== |
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* The [[Spanish national football team]] had a long history of early World Cup or European Championships eliminations despite regularly featuring superstars. Between 1964 and 2008 they only reached a semi final once, in 1984, beating Denmark on penalties and later losing the European Championship final against France. It wasn't until 2008, with yet another highly talented and star-studded team at [[Euro 2008]] that they reached another final and beat [[Germany national football team|Germany]] 1-0 to lift the trophy for a second time after a wait of 44 years. |
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Several new types of [[NVRAM|''non-volatile'' RAM]], which will preserve data while powered down, are under development. The technologies used include [[carbon nanotube]]s and the [[magnetic tunnel effect]]. In summer 2003, a 128 [[Kilobyte|KB]] [[MRAM|magnetic RAM]] chip manufactured with 0.18 µm technology was introduced. The core technology of MRAM is based on the magnetic tunnel effect. In June 2004, [[Infineon Technologies]] unveiled a 16 [[Megabyte|MB]]<ref name = Prefix1/> prototype again based on 0.18 µm technology. [[Nantero]] built a functioning carbon nanotube memory prototype 10 [[Gigabyte|GB]]<ref name=Prefix1>{{BDprefix|p=B}}</ref> array in 2004. Whether some of these technologies will be able to eventually take a significant market share from either DRAM, SRAM, or flash-memory technology, however, remains to be seen. |
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Since 2006, "[[Solid-state drive]]s" (based on flash memory) with capacities exceeding 150 gigabytes and speeds far exceeding traditional disks have become available. This development has started to blur the definition between traditional random access memory and "disks", dramatically reducing the difference in performance. |
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* The [[English national football team]] has lost almost every penalty shootout in its history, crashing out like this in the 1990, 1998 and 2006 World Cups and in the 1996 and 2004 European Championships. The only penalty shootout won was in the 1996 EC quarter finals against Spain, but England lost to Germany in the following semi final - after penalty kicks. |
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==Memory wall== |
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* Tennis player [[Jana Novotná]] lost two [[Wimbledon (tennis)|Wimbledon]] finals, [[Steffi Graf]] and [[Martina Hingis]] after being a few games away from the title. She later redeemed herself by winning Wimbledon on her third final. |
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The "memory wall" is the growing disparity of speed between CPU and memory outside the CPU chip. An important reason for this disparity is the limited communication bandwidth beyond chip boundaries. From 1986 to 2000, [[Central processing unit|CPU]] speed improved at an annual rate of 55% while memory speed only improved at 10%. Given these trends, it was expected that memory latency would become an overwhelming [[bottleneck (engineering)|bottleneck]] in computer performance. <ref>The term was coined in [http://www.cs.virginia.edu/papers/Hitting_Memory_Wall-wulf94.pdf Hitting the Memory Wall: Implications of the Obvious (PDF)].</ref> |
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Currently, CPU speed improvements have slowed significantly partly due to major physical barriers and partly because current CPU designs have already hit the memory wall in some sense. Intel summarized these causes in their [http://download.intel.com/technology/computing/archinnov/platform2015/download/RMS.pdf Platform 2015 documentation (PDF)] |
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* Male tennis player [[Guillermo Coria]] lost the 2004 [[French Open]] final, having been a huge favourite and having a 6-0 6-3 4-4 lead against unseeded [[Gaston Gaudio]]. Even when Coria managed to earn the lead several times in the fifth set, and had two match points in the twelfth game, he couldn't close it out and Gaudio prevailed (though it is worth noting that Coria injured his ankle during the third set, and in all likelihood would have closed out the match had he been healthy). Coria has never regained his form. |
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<blockquote> |
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“First of all, as chip geometries shrink and clock frequencies rise, the transistor leakage current increases, leading to excess power consumption and heat (more on power consumption below). Secondly, the advantages of higher clock speeds are in part negated by memory latency, since memory access times have not been able to keep pace with increasing clock frequencies. Third, for certain applications, traditional serial architectures are becoming less efficient as processors get faster (due to the so-called [[Von Neumann architecture#Von Neumann bottleneck|Von Neumann bottleneck]]), further undercutting any gains that frequency increases might otherwise buy. In addition, partly due to limitations in the means of producing inductance within solid state devices, [[resistance-capacitance]] (RC) delays in signal transmission are growing as feature sizes shrink, imposing an additional bottleneck that frequency increases don't address.” |
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</blockquote> |
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The RC delays in signal transmission were also noted in [http://www.cs.utexas.edu/users/cart/trips/publications/isca00.pdf Clock Rate versus IPC: The End of the Road for Conventional Microarchitectures] which projects a maximum of 12.5% average annual CPU performance improvement between 2000 and 2014. The data on [http://www.intel.com/pressroom/kits/quickreffam.htm Intel Processors] clearly shows a slowdown in performance improvements in recent processors. However, Intel's new processors, [[Core 2 Duo]] (codenamed Conroe) show a significant improvement over previous [[Pentium 4]] processors; due to a more efficient architecture, performance increased while clock rate actually decreased. |
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* The [[New Zealand]] [[All Blacks]] have a fine reputation for losing [[Rugby World Cup|World Cups]] when entering the tournament as favourites having choked at every event since 1991. In 2007, they entered the tournament as red hot favourites having dominanted world rugby for the preceding four years only to play an astonishingly bad game in the quarter final in losing to the plucky, but limited, French side. When the pressure was on, the All Blacks were simply unable to reproduce their efficient, flair and at times beautiful rugby that had so captivated the rugby world previously. |
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==Security concerns== |
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* [[Rugby League in Australia|Rugby League (Australia)]] - see and review statistics for the teams [[Cronulla Sharks]], [[North Sydney Bears]], [[Parramatta Eels]] and [[St George Dragons]] and the coach [[Brian Smith (rugby league)|Brian Smith]] for their efforts in losing critical finals and/or grand finals when seemingly in a winning position. Similary in the UK Saint Helens have had the moniker 'chokers' attached to them in recent years following comprehensive defeats in successive grand finals despite entering both games having won the minor premiership and being overwhelming favourites. |
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Contrary to simple models (and perhaps common belief), the contents of modern SDRAM modules aren't lost immediately when the computer is shutdown; instead, the contents fade away, a process that takes only seconds at room temperatures, but which can be extended to minutes at low temperatures. It is therefore possible to get hold of an encryption key if it was stored in ordinary working memory (i.e. the SDRAM modules).<ref>[http://citp.princeton.edu/memory Cold Boot Attacks on Encryption Keys]</ref> This is sometimes referred to as a [[cold boot attack]]. |
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== See also == |
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* The [[South Africa national cricket team]] has the 'choker' tag due to crashing out of multiple [[Cricket World Cup]]s from positions of near certain victory. e.g. losing to [[Australian cricket team|Australia]] in the [[1999 Cricket World Cup]] semi-finals when needing a single run off three balls, winning all group matches and losing in the knockout stage to the [[West Indies cricket team|West Indies]] in the [[1996 Cricket World Cup]], a tie with [[Sri Lanka cricket team|Sri Lanka]] which sent them out of the [[2003 Cricket World Cup]] and being destroyed by Australia in the [[2007 Cricket World Cup]] semi-final. The [[Indian cricket team]] also has a record of repeatedly dominating a series/tournament only to lose in the finals from 2000 onwards. |
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{{commons|RAM}} |
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<div class="references-small" style="-moz-column-count:2; column-count:2;"> |
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* [[Static random access memory|SRAM]] (Static RAM) |
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* [[Dynamic random access memory|DRAM]] (Dynamic RAM) |
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** [[Fast Page Mode DRAM|FPM]] (Fast Page Mode DRAM) |
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** [[Dynamic random access memory#Extended_Data_Out_(EDO)_DRAM|EDO RAM]] (Extended Data Out DRAM) |
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** [[Dynamic random access memory#Burst_EDO_(BEDO)_DRAM|BEDO RAM]] (Burst Extended Data Out DRAM) |
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** [[SDRAM]] (Synchronous DRAM) |
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*** [[DDR SDRAM]] (Double Data Rate SDRAM) |
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**** [[DDR2 SDRAM]] |
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****[[DDR3 SDRAM]] |
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*** [[Rambus DRAM]] |
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**** [[XDR DRAM]] |
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* [[Rambus|RIMM]], [[SIMM]], [[DIMM]] (RAM-packages) |
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* Used in Ice-Hockey when a team with a large lead or who are highly favored in a game or playoff series are unable to win. Typically such losses happen in dramatic fashion. For example in the 2001–2002 Stanley Cup playoffs the Vancouver Canucks held a 2-0 game advantage before losing the next four games and the series to Detroit. The series is memorable because momentum was turned in Detroit's favour by a goal which was scored from the red line by Nicklas Lidstrom of Detroit on Vancouver's goaltender Dan Cloutier. Detroit went on to win the Stanley Cup that year. Despite Stanley Cup finals appearances in 1982 and 1994 Vancouver has never won the Stanley Cup since they were founded in 1945 one of only 6 current teams formed before 1991 to have never won the Stanley Cup. |
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* [[SO-DIMM]] and [[MicroDIMM]] (Laptop RAM-packages) |
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* [[Nonvolatile BIOS memory|"CMOS RAM"]] |
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*The Italian football team [[F.C. Internazionale Milano|Inter]] has a long history (overall in the 90s) of failures in the national league and in the European Champions League despite every year is potentially one of the best team in the world. |
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* [[CAS latency]] (CL) |
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*German [[Fußball-Bundesliga|Bundesliga]] side [[Schalke 04]] won six championships from 1934-1942, and another in 1958. Since then, however, the club has not won another, failing under almost comical circumstances at times. Second-place finishes include a loss on the ultimate day of the season to eventual champions [[Bayern Munich]] (1972), a one-point deficit incurred thanks to a loss to eventual last-place finishers Saarbrücken after goalkeeper Maric missed a ball booted out towards him (1977), a championship celebrated with fireworks on the incorrect assumption that Bayern Munich had lost on a 90th-minute goal at [[Hamburg SV]], only for Munich to equalise in the 94th minute ("Four-Minute Championship" and "Champions of Hearts" in 2001), a win over eventual champions Munich in March that ensured a three-point lead with nine games remaining, but ended in a fourteen-point deficit after a run of three wins, a draw and five losses to end the season (2005), and, most recently, a 2-0 loss at archrivals [[Borussia Dortmund]], who had nothing to play for, on the penultimate day of the season that ended a 99-day run atop the league table (2007). Schalke have yet to win the national league, or [[Fußball-Bundesliga|Bundesliga]], since its establishment in 1963, and this despite having consistently been one of the most famed and best-supported clubs in Germany. Among the clubs that have won the league, [[1860 Munich]] and [[1. FC Kaiserslautern]] now play in the Second Division, and [[Eintracht Braunschweig]] now play in the Third, while multiple winners [[Borussia Mönchengladbach]] and [[1. FC Köln]] have just been promoted after years in the Second. |
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* [[Dual-channel architecture]] |
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* [[Error detection and correction#Error-correcting code|ECC]] (Error-correcting code) |
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* [[Registered memory|Registered/Buffered memory]] |
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* [[NVRAM|Non-Volatile RAM]] (NVRAM) |
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* Used in football (soccer), when a team loses its cool at the crucial time of the season, and falls away in spite of huge expectations. An example of this is [[Arsenal Football Club]] [http://en.wikipedia.org/wiki/Arsenal_F.C.]. Despite being 6 points clear at the top of the table in February 2008, they fell away when everyone expected them to go on and win the league, and their title challenge was over after losing to Manchester United<ref>[http://www.sportingo.com/football/a7253_arsenal-beginning-manchester-united-choke-manchester MR: Are Arsenal beginning to choke, or are Man United just to strong? - Sportingo<!-- Bot generated title -->]</ref>. They did the same in the Champions League, the FA Cup, and the Carling Cup, each time conceding 4 goals in the games that counted. |
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* [[Spin Torque Transfer|STT RAM]] (Spin Torque Transfer RAM) |
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* [[Compact Flash]], [[SD Card]], [[xD Card]] etc |
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* In football (soccer), AC Milan were 3-0 up at half time against Liverpool in the 2005 Champions League final and looked certain to win but choked at vital times and Liverpool scored three goals in six minutes in the second half to equal the score 3-3. It went to extra time and penalties. Liverpool won the penalty shootout 3-2. It has been long cosidered the worst choke in football history. However AC Milan got revenge against Liverpool when they played in the 2007 Champions League final with AC Milan winning 2-1. |
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* [[DVD-RAM]] |
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* In Australian football, the [[Port Adelaide Football Club]] attracted a reputation for choking in the early 2000s, after the team failed to qualify for the Grand Final in three successive seasons in the top four, including two as minor premiers. They broke the hoodoo in 2004, winning the premiership, and coach Mark Williams used his tie to mime choking. |
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*[[RAM parity]] |
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</div> |
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== Notes and references == |
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* Also in Australian football, the [[Collingwood Football Club]] had a choking reputation known as ''the Colliwobbles''. By 1958, Collingwood was the league's most successful team with thirteen premierships, but would not win another until 1990; during the drought, they lost eight Grand Finals. |
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* Also in Australian Football, the Geelong Cats went through the 2008 season winning 23 games and losing only once before the grand final but lost to Hawthorn 18.7.115 to 11.23.89 |
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* In the AFL's Dream Team competition, The Big League's choking tag belongs to IN THE VIP; a team that has finished on top of the home & away ladder 3 times out of the last four seasons but has failed to win the title. |
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==References== |
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{{reflist}} |
{{reflist}} |
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==External links== |
==External links== |
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*[http://www.entryboot.com/types-ram-random-access-memory.php Types of RAM and Memory Management] |
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*[http://sportsillustrated.cnn.com/si_blogs/scorecard/daily_list/2007/09/greatest-collapses-in-sports-history.html Greatest Collapses in Sports History] |
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* [http://www.howstuffworks.com/ram.htm How RAM Works] – Article by Jeff Tyson and Dave Coustan |
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* [http://home.pacbell.net/dbk4297/memory_what_kind.html What kind of RAM] – Pictures and descriptions of RAM from Darrell's computer help and information site. |
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[[Category:Computer memory]] |
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[[af:Ewetoeganklike geheue]] |
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[[Category:Slang]] |
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[[ar:ذاكرة الوصول العشوائي]] |
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[[bn:র্যান্ডম অ্যাক্সেস মেমোরি]] |
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[[bg:Памет с произволен достъп]] |
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[[de:Random Access Memory]] |
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[[et:Muutmälu]] |
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[[el:Μνήμη τυχαίας προσπέλασης]] |
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[[es:Memoria de acceso aleatorio]] |
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[[eo:Ĉefmemoro]] |
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[[eu:RAM]] |
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[[ga:Cuimhne randamrochtana]] |
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[[gl:Memoria de acceso aleatorio]] |
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[[he:זיכרון גישה אקראית]] |
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[[ka:ოპერატიული მეხსიერება]] |
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[[kk:Жедел Жадтау Құрылғысы]] |
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[[lv:Brīvpiekļuves atmiņa]] |
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[[hu:Véletlen elérésű memória]] |
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[[ml:റാന്ഡം ആക്സസ് മെമ്മറി]] |
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[[pl:Pamięć o dostępie swobodnym]] |
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[[pt:Memória de acesso aleatório]] |
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[[ro:Memorie cu acces aleator]] |
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[[ru:Запоминающее устройство с произвольным доступом]] |
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[[sk:Pamäť s priamym prístupom]] |
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Revision as of 12:48, 11 October 2008
| Computer memory and Computer data storage types |
|---|
| Volatile |
| Non-volatile |
Random-access memory (usually known by its acronym, RAM) is a computer data storage. Today it takes the form of integrated circuits that allow the stored data to be accessed in any order, i.e. at random. The word random thus refers to the fact that any piece of data can be returned in a constant time, regardless of its physical location and whether or not it is related to the previous piece of data.[1]
This contrasts with storage mechanisms such as tapes, magnetic discs and optical discs, which rely on the physical movement of the recording medium or a reading head. In these devices, the movement takes longer than the data transfer, and the retrieval time varies depending on the physical location of the next item.
The word RAM is mostly associated with volatile types of memory (such as DRAM memory modules), where the information is lost after the power is switched off. However, many other types of memory are RAM as well (i.e. Random Access Memory), including most types of ROM and a kind of flash memory called NOR-Flash.
History
An early type of widespread writable random access memory was the magnetic core memory, developed in 1949-1951, and subsequently used in most computers up until the development of the static and dynamic integrated RAM circuits in the late 1960s and early 1970s. Before this, computers used relays, delay lines or various kinds of vacuum tube arrangements to implement "main" memory functions (i.e. hundreds or thousands of bits), some of which were random access, some not. Latches built out of vacuum tube triodes, and later, out of discrete transistors, were used for smaller and faster memories such as registers and (random access) register banks. Prior to the development of integrated ROM circuits, permanent (or read-only) random access memory was often constructed using semiconductor diode matrixes driven by address decoders.
Overview
Types of RAM
Modern types of writable RAM generally store a bit of data in either the state of a flip-flop, as in SRAM (static RAM), or as a charge in a capacitor (or transistor gate), as in DRAM (dynamic RAM), EPROM, EEPROM and Flash. Some types have circuitry to detect and/or correct random faults called memory errors in the stored data, using parity bits or error correction codes. RAM of the read-only type, ROM, instead uses a metal mask to permanently enable/disable selected transistors, instead of storing a charge in them.
As both SRAM and DRAM are volatile, other forms of computer storage, such as disks and magnetic tapes, have been used as "permanent" storage in traditional computers. Many newer products instead rely on flash memory to maintain data between sessions of use: examples include PDAs, small music players, mobile phones, synthesizers, advanced calculators, industrial instrumentation and robotics, and many other types of products; even certain categories of personal computers, such as the OLPC XO-1, Asus Eee PC, and others, have begun replacing magnetic disk with so called flash drives (similar to fast memory cards equipped with an IDE or SATA interface).
There are two basic types of flash memory: the NOR type, which is capable of true random access, and the NAND type, which is not; the former is therefore often used in place of ROM, while the latter is used in most memory cards and solid-state drives, due to a lower price.
Memory hierarchy
Many computer systems have a memory hierarchy consisting of CPU registers, on-die SRAM caches, external caches, DRAM, paging systems, and virtual memory or swap space on a hard drive. This entire pool of memory may be referred to as "RAM" by many developers, even though the various subsystems can have very different access times, violating the original concept behind the random access term in RAM. Even within a hierarchy level such as DRAM, the specific row, column, bank, rank, channel, or interleave organization of the components make the access time variable, although not to the extent that rotating storage media or a tape is variable. (Generally, the memory hierarchy follows the access time with the fast CPU registers at the top and the slow hard drive at the bottom.)
In many modern personal computers, the RAM comes in an easily upgraded form of modules called memory modules or DRAM modules about the size of a few sticks of chewing gum. These can quickly be replaced should they become damaged or too small for current purposes. As suggested above, smaller amounts of RAM (mostly SRAM) are also integrated in the CPU and other ICs on the motherboard, as well as in hard-drives, CD-ROMs, and several other parts of the computer system. The overall goal of using a memory hierarchy is to obtain the higher possible average access speed while minimizing the total cost of entire memory system.
Swapping
If a computer becomes low on RAM during intensive application cycles, the computer can perform an operation known as "swapping". When this occurs, the computer temporarily uses hard drive space as additional memory. Constantly relying on this type of backup memory is called thrashing, which is generally undesirable because it lowers overall system performance. In order to reduce the dependency on swapping, more RAM can be installed.
Other uses of the "RAM" term
Other physical devices with read/write capability can have "RAM" in their names: for example, DVD-RAM. "Random access" is also the name of an indexing method: hence, disk storage is often called "random access" because the reading head can move relatively quickly from one piece of data to another, and does not have to read all the data in between. However the final "M" is crucial: "RAM" (provided there is no additional term as in "DVD-RAM") always refers to a solid-state device.
RAM disks
Software can "partition" a portion of a computer's RAM, allowing it to act as a much faster hard drive that is called a RAM disk. Unless the memory used is non-volatile, a RAM disk loses the stored data when the computer is shut down. However, volatile memory can retain its data when the computer is shut down if it has a separate power source, usually a battery.
Shadow RAM
Sometimes, the contents of a ROM chip is copied to SRAM or DRAM to allow for shorter access times (as ROM may be slower). The ROM chip is then disabled while the initialized memory locations are switched in on the same block of addresses (often write-protected). This process, sometimed called shadowing, is fairly common in both computers and embedded systems.
As a common example, the BIOS in typical personal computers often have an option called “use shadow BIOS” or similar. When enabled, functions relying on data from the BIOS’s ROM will instead use DRAM locations (most can also toggle shadowing of video card ROM or other ROM sections). Depending on the system, this may or may not give a performance boost. On some systems the benefit may be hypothetical because the BIOS is not used after booting in favour of direct hardware hardware access. Of course, somewhat less free memory is available when shadowing is enabled.[2]
Recent developments
Several new types of non-volatile RAM, which will preserve data while powered down, are under development. The technologies used include carbon nanotubes and the magnetic tunnel effect. In summer 2003, a 128 KB magnetic RAM chip manufactured with 0.18 µm technology was introduced. The core technology of MRAM is based on the magnetic tunnel effect. In June 2004, Infineon Technologies unveiled a 16 MB[3] prototype again based on 0.18 µm technology. Nantero built a functioning carbon nanotube memory prototype 10 GB[3] array in 2004. Whether some of these technologies will be able to eventually take a significant market share from either DRAM, SRAM, or flash-memory technology, however, remains to be seen.
Since 2006, "Solid-state drives" (based on flash memory) with capacities exceeding 150 gigabytes and speeds far exceeding traditional disks have become available. This development has started to blur the definition between traditional random access memory and "disks", dramatically reducing the difference in performance.
Memory wall
The "memory wall" is the growing disparity of speed between CPU and memory outside the CPU chip. An important reason for this disparity is the limited communication bandwidth beyond chip boundaries. From 1986 to 2000, CPU speed improved at an annual rate of 55% while memory speed only improved at 10%. Given these trends, it was expected that memory latency would become an overwhelming bottleneck in computer performance. [4]
Currently, CPU speed improvements have slowed significantly partly due to major physical barriers and partly because current CPU designs have already hit the memory wall in some sense. Intel summarized these causes in their Platform 2015 documentation (PDF)
“First of all, as chip geometries shrink and clock frequencies rise, the transistor leakage current increases, leading to excess power consumption and heat (more on power consumption below). Secondly, the advantages of higher clock speeds are in part negated by memory latency, since memory access times have not been able to keep pace with increasing clock frequencies. Third, for certain applications, traditional serial architectures are becoming less efficient as processors get faster (due to the so-called Von Neumann bottleneck), further undercutting any gains that frequency increases might otherwise buy. In addition, partly due to limitations in the means of producing inductance within solid state devices, resistance-capacitance (RC) delays in signal transmission are growing as feature sizes shrink, imposing an additional bottleneck that frequency increases don't address.”
The RC delays in signal transmission were also noted in Clock Rate versus IPC: The End of the Road for Conventional Microarchitectures which projects a maximum of 12.5% average annual CPU performance improvement between 2000 and 2014. The data on Intel Processors clearly shows a slowdown in performance improvements in recent processors. However, Intel's new processors, Core 2 Duo (codenamed Conroe) show a significant improvement over previous Pentium 4 processors; due to a more efficient architecture, performance increased while clock rate actually decreased.
Security concerns
Contrary to simple models (and perhaps common belief), the contents of modern SDRAM modules aren't lost immediately when the computer is shutdown; instead, the contents fade away, a process that takes only seconds at room temperatures, but which can be extended to minutes at low temperatures. It is therefore possible to get hold of an encryption key if it was stored in ordinary working memory (i.e. the SDRAM modules).[5] This is sometimes referred to as a cold boot attack.
See also
- SRAM (Static RAM)
- DRAM (Dynamic RAM)
- CAS latency (CL)
- Dual-channel architecture
- ECC (Error-correcting code)
- Registered/Buffered memory
- Non-Volatile RAM (NVRAM)
- STT RAM (Spin Torque Transfer RAM)
- Compact Flash, SD Card, xD Card etc
Notes and references
- ^ Strictly speaking, modern types of DRAM are therefore not truly (or technically) random access, as data are read in burst; the name DRAM has stuck however.
- ^ "Shadow Ram" (HTML). Retrieved 2007-07-24.
- ^ a b Transistorized memory, such as RAM, ROM, flash and cache sizes as well as file sizes are specified using binary meanings for K (10241), M (10242), G (10243), etc.
- ^ The term was coined in Hitting the Memory Wall: Implications of the Obvious (PDF).
- ^ Cold Boot Attacks on Encryption Keys
External links
- Types of RAM and Memory Management
- How RAM Works – Article by Jeff Tyson and Dave Coustan
- What kind of RAM – Pictures and descriptions of RAM from Darrell's computer help and information site.