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Mainframes (often colloquially referred to as '''big iron''') are large and "expensive" Computer s used mainly by government institutions and large companies for mission critical applications, typically bulk data processing such as Census es, industry/consumer statistics, ERP , and financial Transaction Processing . The term originated during the early 1970s with the introduction of smaller, less complex computers such as the DEC PDP-8 and PDP-11 series, which became known as Minicomputer s or just ''minis''. The industry/users then coined the term "mainframe" to describe larger, earlier types (previously known simply as "computers"). DESCRIPTION Modern mainframe computers have abilities not so much defined by their performance capabilities as by their high-quality internal engineering and resulting proven reliability, high-quality technical support, top-notch security, and strict Backward Compatibility for older software. These machines can and do run successfully for years without interruption, with repairs taking place whilst they continue to run. Mainframe vendors offer such services as off-site redundancy — if a machine does break down, the vendor offers the option to run customers' applications on their own machines (often without users even noticing the change) whilst repairs go on. The robustness and dependability of these systems has been one of the main reasons for the longevity of this class of computers, being used in applications where down-time would be catastrophic. The term Reliability, Availability And Serviceability , or ''RAS'', has become a marketing term used to denote this robustness. This robustness is often the argument used against replacing mainframes with other types of computers. Mainframes often support thousands of simultaneous users who gain access through "dumb" Terminals or Terminal Emulation . Early mainframes either supported this Timesharing mode or operated in Batch mode where users had no direct access to the computing service; it solely provided Back Office functions. At this time mainframes were so called because of their very substantial size and requirements for specialized HVAC and electrical power. Nowadays mainframes support access via any User Interface , including the Web . (An IBM mainframe was the first Web Server anywhere outside Europe.) Blade Server s and Rack Servers , rather than mainframes, are now increasingly requiring exotic cooling technologies and take up far more data center floor space. MARKET CONTEXT Nearly all mainframes have the ability to run (or "host") multiple operating systems and thereby operate not as a single computer but as a number of Virtual Machine s. In this role, a single mainframe can replace dozens or even hundreds of smaller Servers , reducing management and administrative costs while providing greatly improved scalability and reliability. The reliability is improved because of the hardware redundancy noted above, and the scalability is achieved because hardware resources can be reallocated among the virtual machines as needed out of total system capacity. Mainframes can add system capacity nondisruptively, instantly, and granularly — what s, via PR/SM ), virtual machines (primarily via Z/VM ), and the protected and virtual addressing and workload management of their operating systems, notably Z/OS . Together, these virtualization technologies support business-friendly Mixed Workload s, including Linux and Java , in a highly reliable and efficient manner. Whether the acquisition cost of a mainframe makes sense will depend on its Return On Investment (ROI). Mainframe ROI, like any other computing platform, is dependent on its ability to scale, support mixed workloads, reduce labor costs, deliver uninterrupted service for critical business applications, and several other risk-adjusted cost factors. Some argue that the modern mainframe is not cost-effective. Sun Microsystems , Hewlett-Packard , and Dell understandably take that view, and so do some independent analysts. (Hewlett-Packard manufactures its own mainframe, the NonStop system originally created by Tandem, so HP confines its criticism of mainframes to IBM's models.) However, the majority view is that mainframes are uniquely valuable (and cost-effective) for many businesses and governments. IBM's ZSeries and System Z9 revenues are growing, despite declining prices, suggesting that view is indeed widespread among technology buyers. Major independent analysts reinforce that assessment. There's no question that mid-tier servers are improving. Logical partitioning, at least in basic form, is now found in many high-end Unix -based servers. However, all servers are improving, not just non-mainframe servers. For example, zSeries/z9 servers execute each instruction twice, compare results, and shift workloads "in flight" to functioning processors, including spares, without any impact to applications or users. This rare feature, also found in Tandem Computers , is known as lock-stepping, because both processors take their "steps" (i.e. instructions) together. Not all applications absolutely need the assured integrity that these systems provide, but many do, such as financial transaction processing. Undoubtedly debates will continue about the mainframe's value — and, for that matter, about the value of other computing platforms, such as the PC . The debate began with the 1964 introduction of the IBM System/360 and has continued for over 40 years. The mainframe market is exhibiting economic characteristics familiar to observers of other markets such as semiconductors and large airliners. All these markets have tremendous Economies Of Scale and require huge capital investments to compete, resulting in just a small handful of large vendors. Yet these markets are extremely competitive because technology leadership can be fragile and because these markets are disproportionately sensitive to macroeconomic demand changes. Businesses and governments tend to delay or defer capital investments, such as mainframe purchases, during economic recessions. When discussing the mainframe market it's no exaggeration to say that IBM defines it. As of early 2006, IBM Mainframe s dominate the market at well over 90% Market Share . The company started shipping the market's most powerful mainframe, the System z9-109, in late 2005 and spent a breathtaking $1.2 billion developing it. IBM also lowered the price substantially, effectively decreasing software prices by 10%, memory prices by 20%, and Linux and Java processor prices by about 25%. Despite IBM's mainframe might, IBM is not the only vendor. Unisys still manufactures ClearPath mainframes, based on earlier Sperry and Burroughs product lines, and a recent survey suggests its customers are loyal. Fujitsu 's current product line, the Nova, is rebranded Unisys ES7000 hardware, while their Amdahl 31-bit product line is fast fading and never stood a chance against IBM's 64-bit technology. Hitachi co-developed the affordable (under $100,000 as of early 2006) ZSeries 800 with IBM to share expenses. Hewlett-Packard continues to sell its unique NonStop systems which it acquired with Tandem Computers . Bull 's DPS mainframes are still on the European market. Industry rumors abound that another entrant (or reentrant) will start shipping IBM-compatible machines. Unisys and HP are increasingly relying on commodity Intel CPUs rather than custom processors in order to reduce development expenses, and that strategy should help Unisys and HP improve their margins. In contrast, IBM is pouring billions into developing new, homegrown technologies, and so far that investment strategy is paying generous dividends thanks to customer interest. It also helps differentiate IBM's products. Mainframe acquisition prices vary, but late model IBM mainframes start "under $200,000" (zSeries 890 Model 110, U.S. 2005 reported price, excluding disk and tape storage and software). That price is somewhat misleading, however, because IBM mainframe processors are "owned forever" — customers only pay a frame charge for a model upgrade and do not have to repurchase processor capacity. Prices also generally include generous maintenance and service terms that are quite unlike other computers. There is an exceptionally active market for used mainframes, much like the aircraft market. HISTORY Several manufacturers produced mainframe computers from the late , Control Data Corporation , General Electric , Honeywell , NCR , RCA , and UNIVAC . IBM's dominance grew out of their 700/7000 Series and, later, the development of the 360 series mainframes. The latter architecture has continued to evolve into their current zSeries/z9 mainframes which, along with the then Burroughs and now Unisys MCP -based mainframes, are among the few mainframe architectures still extant that dates from this early period. That said, while they can still run 24-bit System/360 code, the 64-bit zSeries and System z9 CMOS servers have almost nothing physically in common with the older systems. The larger of the latter IBM competitors were also often referred to as "The BUNCH" from their initials (Burroughs, UNIVAC, NCR, CDC, Honeywell). Notable manufacturers outside the USA were Siemens and Telefunken in Germany and ICL in Britain . Shrinking demand and tough competition caused a huge shakeout in the market in the early 80s—RCA sold out to UNIVAC and GE also left; Honeywell was bought out by Bull ; UNIVAC (a division of Sperry ) later merged with Burroughs to form Unisys Corporation in 1986 (dubbed "dinosaurs mating"). In 1991 , AT&T briefly owned NCR. For a period of time companies found that servers based on microcomputer designs could be deployed at a fraction of the acquisition cost and offer local users much greater control over their own systems. Dumb terminals used for interacting with mainframe systems were gradually replaced by Personal Computer s. Consequently, demand plummeted and new mainframe installations were restricted mainly to financial services and government. For a while, there was a consensus among industry analysts that the mainframe was a dying market as mainframe platforms were increasingly replaced by personal computer networks. MARKET REBOUND That trend started to turn around in the late 1990s as corporations found new uses for their mainframes, since they can offer Web Server performance similar to that of hundreds of smaller machines, but with much lower power and administration costs. The growth of E-business has also dramatically increased the number of backend transactions processed by tried-and-true mainframe software as well as the size and throughput of databases. As of late 2004 , IBM's mainframe revenues are increasing even with price reductions, thanks to attractive TCO s. In 2005, numerous press stories detailed the loss of sensitive personal information from careless data handling. In one example, CardSystems , a U.S. credit card processor, discovered that thousands (if not millions—the exact number is unknown) of its credit card customers' records had fallen into the hands of hackers, thanks to a Computer Worm installed on one of its Microsoft Windows servers. The CardSystems breach cost an estimated $2.75 billion (U.S.), although the exact figure is difficult to ascertain. Financial institutions have not experienced these security-related failures with their mainframes, so many organizations are reassessing their entire data handling practices, often focusing on Data Recentralization on secure systems. In another example, Comair 's airline crew scheduling system, installed on a non-mainframe server, failed during the busy Christmas travel season in 2004. Comair's Board of Directors fired its CEO as a consequence. Analysts expect a "flight to quality" to boost mainframe business given continuing high profile IT failures. (Mainframes do enjoy a justified reputation for reliability and security.) Replacement of older 31-bit systems, including Amdahl and most Hitachi models, should also positively affect IBM's mainframe revenues, especially in 2006 as those older systems reach their end-of-life. ( Z/OS will only support 64-bit systems from early 2007 onward.) Another factor currently increasing mainframe use is the development of the Linux operating system, which is capable of running on many mainframe systems, either directly or, more commonly, in virtual machines. (See Linux On ZSeries .) Linux allows companies and governments to take advantage of the software and development expertise from the Open Source community while enjoying the low per-user costs and high reliability (and security) of mainframes. IBM's difficult product transition from Bipolar to CMOS processor technology finally began to pay dividends in the late 1990s. IBM (and its customers) no longer had to spend huge sums on cooling plumbing. IBM started investing heavily in more useful technologies, such as 64-bit Z/Architecture . IBM also beefed up its software offerings, improving its mainframe products quite dramatically, such as DB2 UDB for Z/OS and WebSphere . IBM also entered the market for mainframe tools, utilities, and management software, to reestablish competition in that market segment and thus drive vendors to innovate. MAINFRAMES VS. SUPERCOMPUTERS The distinction between Supercomputer s and mainframes is not a hard and fast one, but generally one can say that supercomputers focus on problems which are limited by calculation speed while mainframes focus on problems which are limited by Input/Output and reliability. As a consequence:
There's also some blurring of the term "mainframe" with high-end PC and Unix servers. (Some PC and Unix server vendors occasionally refer to their systems as "mainframes" or "mainframe-like.") That blurring of the term is not widely accepted, with the market in general agreement that true mainframes (particularly IBM ZSeries ) are genuinely and demonstrably different. STATISTICS It has been reported that:
Java use is increasing rapidly As Of Late 2004 , and these figures are likely significantly out-of-date. (See also ZAAP , WebSphere , and Linux.) Also, mainframe COBOL has recently acquired numerous Web -oriented features, such as XML parsing, with PL/I following close behind.
SPEED AND PERFORMANCE The CPU speed of mainframes has historically been termed as MIPS ( Million Instructions Per Second ). MIPS have been used as an easy comparative rating of the speed and capacity of mainframes. The smallest zSeries IBM mainframes today run at about 26 MIPS (z890 Model 110) and range up to nearly 18,000 MIPS (in one System z9-109 Model S54 mainframe). However, MIPS is inherently misleading for at least two reasons:
Officially, IBM has long published a set of LSPR (Large System Performance Reference) ratio tables for mainframes that takes into account different types of workloads. An analogy can be easily seen in today's competitive Unix server environment, where more demanding customers look at machine performance based on specific type of workload benchmarks, e.g. SpecInt or TPC-C, rather than looking at pure CPU clockspeed. However, increasingly even these benchmarks have their own problems. Unfortunately, it takes a fair amount of work (and maybe guesswork) for customers to determine what type of workload they have and then apply only the LSPR values most relevant to them. Use of MIPS still persists today to the extent that IBM and other consultants continue to publish MIPS for general reference. SEE ALSO EXTERNAL LINKS
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