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IBM PS/2

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Personal System/2
An assortment of PS/2s in various form factors[a]
Also known asPS/2
DeveloperInternational Business Machines Corporation (IBM)
ManufacturerIBM
TypePersonal computers
Release dateApril 2, 1987; 37 years ago (1987-04-02)
DiscontinuedJuly 1995
Media
  • 3.5-inch floppy disks
  • 5.25-inch floppy disks (optional, external drive)
Operating system
CPUVarious; see list of models
GraphicsVGA
Power120/240 VAC ~ (desktops)
PredecessorPersonal Computer AT
Successor
Related

The Personal System/2 or PS/2 is IBM's second generation[1][2] of personal computers. Released in 1987, it officially replaced the IBM PC, XT, AT, and PC Convertible in IBM's lineup. Many of the PS/2's innovations, such as the 16550 UART (serial port), 1440 KB 3.5-inch floppy disk format, 72-pin SIMMs, PS/2 port, and VGA video standard, went on to become standards in the broader PC market.[3][4]

The PS/2 line was created by IBM partly in an attempt to recapture control of the PC market by introducing the advanced yet proprietary Micro Channel architecture (MCA) on higher-end models. These models were in the strange position of being incompatible with the hardware standards previously established by IBM and adopted in the IBM PC compatible industry. Most major PC manufacturers balked at IBM's licensing terms for MCA-compatible hardware, particularly the per-machine royalties. The OS/2 operating system was announced at the same time as the PS/2 line and was intended to be the primary operating system for models with Intel 80286 or later processors. However, at the time of the first shipments, only IBM PC DOS 3.3 was available. OS/2 1.0 (text-mode only) and Microsoft's Windows 2.0 became available several months later. IBM also released AIX PS/2, a UNIX operating system for PS/2 models with Intel 386 or later processors.

IBM's initial PS/2 computers were popular with target market corporate buyers, and by September 1988, IBM reported that it had sold 3 million PS/2 machines in the past 18 months. However, the PS/2 was unsuccessful in the consumer market since IBM failed to establish a link in the consumer's mind between the PS/2 MicroChannel architecture and the immature OS/2 1.x operating system (the more capable OS/2 version 2.0 was not released until 1992) to justify the PS/2's price premium, in contrast to rival IBM PC compatibles that stuck with industry-wide standard hardware while running Microsoft Windows.[5] Rival manufacturers also teamed up to form the EISA bus standard in opposition to the Micro Channel.[6] In 1992, Macworld stated that "IBM lost control of its own market and became a minor player with its own technology."[7] IBM officially retired the PS/2 line in July 1995.[8]

Technology

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Predecessors to the PS/2
Name Year
IBM Personal Computer 1981
IBM Personal Computer XT 1983
IBM Portable Personal Computer 1984
IBM PCjr 1984
IBM Personal Computer/AT 1984
IBM PC Convertible 1986
IBM Personal Computer XT 286 1986

IBM's PS/2 was designed to remain software compatible with their PC/AT/XT line of computers upon which the large PC clone market was built, but the hardware was quite different. PS/2 had two BIOSes: one named ABIOS (Advanced BIOS) which provided a new protected mode interface and was used by OS/2, and CBIOS (Compatible BIOS) which was included to be software compatible with the PC/XT/AT. CBIOS was so compatible that it even included Cassette BASIC. While IBM did not publish the BIOS source code, it did promise to publish BIOS entry points.[9]

Micro Channel architecture

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With certain models to the IBM PS/2 line, Micro Channel Architecture (MCA) was also introduced.[9] MCA was conceptually similar to the channel architecture of the IBM System/360 mainframes. MCA was technically superior to ISA and allowed for higher-speed communications within the system. The majority of MCA's features would be seen in later buses with the exception of: streaming-data procedure, channel-check reporting, error logging[10] and internal bus-level video pass-through for devices like the IBM 8514. Transfer speeds were on par with the much later PCI standard. MCA allowed one-to-one, card-to-card, and multi-card to processor simultaneous transaction management which is a feature of the PCI-X bus format.

Bus mastering capability, bus arbitration, and a primitive form of plug-and-play management of hardware were all benefits of MCA. Gilbert Held in his 2000 book Server Management observes: "MCA used an early (and user-hostile) version of what we know now as 'Plug-N′-Play', requiring a special setup disk for each machine and each card."[11] MCA never gained wide acceptance outside of the PS/2.

When setting up the card with its disk, all choices for interrupts and other changes were accomplished automatically by the PC reading the old configuration from the floppy disk. This made necessary changes, then recorded the new configuration to the floppy disk. This meant that the user must keep that same floppy disk matched to that particular PC. For a small organization with a few PCs, this was annoying, but less expensive and time-consuming than bringing in a PC technician to do installation. But for large organizations with hundreds or even thousands of PCs, permanently matching each PC with its own floppy disk was a logistical nightmare. Without the original, (and correctly updated) floppy disk, no changes could be made to the PC's cards.

Keyboard/mouse

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Layout

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The PS/2 IBM Model M keyboard used the same 101-key layout of the previous IBM PC/AT Extended keyboard.[9] European variants had 102 keys with the addition of an extra key to the right of the left Shift key.

Interface

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The original IBM PS/2 mouse
PS/2 connection ports (later colored purple for keyboard and green for mouse, according to PC 97) were once commonly used for connecting input devices.

PS/2 systems introduced a new specification for the keyboard and mouse interfaces, which are still in use today (though increasingly supplanted by USB devices) and are thus called "PS/2" interfaces. The PS/2 keyboard interface, inspired by Apple's ADB interface, was electronically identical to the long-established AT interface, but the cable connector was changed from the 5-pin DIN connector to the smaller 6-pin mini-DIN interface. The same connector and a similar synchronous serial interface was used for the PS/2 mouse port.

The initial desktop Model 50 and Model 70 also featured a new cableless internal design, based on use of interposer circuit boards to link the internal drives to the planar (motherboard). Additionally, these machines could be largely disassembled and reassembled for service without tools.

Additionally, the PS/2 introduced a new software data area known as the Extended BIOS Data Area (EBDA). Its primary use was to add a new buffer area for the dedicated mouse port. This also required making a change to the "traditional" BIOS Data Area (BDA) which was then required to point to the base address of the EBDA.

Another new PS/2 innovation was the introduction of bidirectional parallel ports which, in addition to their traditional use for connecting a printer, could now function as a high-speed data transfer interface. This allowed the use of new hardware such as parallel port scanners, CD-ROM drives, and also enhanced the capabilities of printers by allowing them to communicate with the host PC and send back signals instead of simply being a passive output device.

Graphics

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Most of the initial range of PS/2 models were equipped with a new frame buffer known as the Video Graphics Array, or VGA for short. This effectively replaced the previous EGA standard.[9] VGA increased graphics memory to 256 KB and provided for resolutions of 640×480 with 16 colors, and 320 × 200 with 256 colors. VGA also provided a palette of 262,144 colors (as opposed to the EGA palette of 64 colors). The IBM 8514 and later XGA computer display standards were also introduced on the PS/2 line.

Key monitors and their maximum resolutions:

  • 8504: 12″, 640 × 480, 60 Hz non-interlaced, 1991, monochrome
  • 8507: 19″, 1024 × 768, 43.5 Hz interlaced, 1988, monochrome
  • 8511: 14″, 640 × 480, 60 Hz non-interlaced, 1987
  • 8512: 14″, 640 × 480, 60 Hz non-interlaced, 1987
  • 8513: 12″, 640 × 480, 60 Hz non-interlaced, 1987
  • 8514: 16″, 1024 × 768, 43.5 Hz interlaced, 1987
  • 8515: 14″, 1024 × 768, 43.5 Hz interlaced, 1991
  • 8516: 14″, 1024 × 768, 43.5 Hz interlaced, 1991
  • 8518: 14″, 640 × 480, 75 Hz non-interlaced, 1992
  • 9515: 14″, 1024 × 768, 43.5 Hz interlaced, 1992
  • 9517: 16″, 1280 × 1024, 53 Hz interlaced, 1991
  • 9518: 14″, 640 × 480, non-interlaced, 1992
  • 38F4737: 10", 640 × 480, non-interlaced, 1989, amber monochrome plasma screen; this display was exclusive to models P70 and P75

In truth, all XGA 1024 × 768 monitors are multimode, as XGA works as an add-on card to a built-in VGA and transparently passes the VGA signal through when not operating in a high-resolution mode. All of the listed 85xx displays can therefore sync 640×480 at 60 Hz (or 720 × 400 at 70 Hz) in addition to any higher mode they may also be capable of. This however is not true of the 95xx models (and some unlisted 85xx's), which are specialist workstation displays designed for use with the XGA-2 or Image Adapter/A cards, and whose fixed frequencies all exceed that of basic VGA – the lowest of their commonly available modes instead being 640 × 480 at 75 Hz, if not something much higher still. It is also worth noting that these were still merely dual- or "multiple-frequency" monitors, not variable-frequency (also known as multisync); in particular, despite running happily at 640 × 480, 720 × 400 and 1024 × 768, an (e.g.) 8514 cannot sync the otherwise common intermediate 800 × 600 SVGA resolution, even at the relatively low 50 to 56 Hz refresh rates initially used.

Although the design of these adapters did not become an industry standard as VGA did, their 1024 × 768 pixel resolution was subsequently widely adopted as a standard by other manufacturers, and XGA became a synonym for this screen resolution. The only exceptions were the bottom-rung 8086-based Model 25 and 30, which had a cut-down version of VGA referred to as MCGA; the 286 models came with VGA. This supported CGA graphics modes, VGA 320 × 200 256 color and 640 × 480 monochrome mode, but not EGA or color 640 × 480.

MCA IBM XGA-2 graphics card

VGA video connector

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All of the new PS/2 graphics systems (whether MCGA, VGA, 8514, or later XGA) used a 15-pin D-sub connector for video out. This used analog RGB signals, rather than four or six digital color signals as on previous CGA and EGA monitors. The digital signals limited the color gamut to a fixed 16- or 64-color palette with no room for expansion. In contrast, any color depth (bits per primary) can be encoded into the analog RGB signals so the color gamut can be increased arbitrarily by using wider (more bits per sample) DACs and a more sensitive monitor. The connector was also compatible with analog grayscale displays. Unlike earlier systems such as MDA and Hercules, this was transparent to software, so all programs supporting the new standards could run unmodified whichever type of display was attached. On the other hand, whether the display was color or monochrome was undetectable to software, so selection between application displays optimized for color or monochrome, in applications that supported both, required user intervention. These grayscale displays were relatively inexpensive during the first few years the PS/2 was available, and they were very commonly purchased with lower-end models.

The VGA connector became the de facto standard for connecting monitors and projectors on both PC and non-PC hardware over the course of the early 1990s, replacing a variety of earlier connectors.

Storage

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Some PS/2 models used a quick-attachment socket on the back of the floppy drive which is incompatible with a standard 5.25" floppy connector.
Close-up of unusual 72-pin MCA internal hard drive connector

Apple had first popularized the 3.5" floppy on the Macintosh line and IBM brought them to the PC in 1986 with the PC Convertible. In addition, they could be had as an optional feature on the XT and AT. The PS/2 line used entirely 3.5" drives which assisted in their quick adoption by the industry, although the lack of 5.25" drive bays in the computers created problems later on in the 1990s as they could not accommodate internal CD-ROM drives. In addition, the lack of built-in 5.25" floppy drives meant that PS/2 users could not immediately run the large body of existing IBM-compatible software.[12] However IBM made available optional external 5.25" drives, with internal adapters for the early PS/2 models, to enable data transfer.

3.5" DD and HD floppies

In the initial lineup, IBM used 720 KB double density (DD) capacity drives on the 8086-based models and 1440 KB high density (HD) on the 80286-based and higher models. By the end of the PS/2 line they had moved to a somewhat standardized capacity of 2880 KB.

The PS/2 floppy drives lacked a capacity detector. 1440 KB floppies had a hole so that drives could distinguish them from 720 KB floppies, preventing users from formatting the smaller capacity disks to the higher capacity (doing so would work, but with a higher tendency of data loss). Clone manufacturers implemented the hole detection, but IBM did not. As a result of this a 720 KB floppy could be formatted to 1440 KB in a PS/2, but the resulting floppy would only be readable by a PS/2 machine.[13]

PS/2s primarily used Mitsubishi floppy drives and did not use a separate Molex power connector; the data cable also contained the power supply lines. As the hardware aged the drives often malfunctioned due to bad quality capacitors.[citation needed]

The PS/2 used several different types of internal hard drives. Early models used MFM or ESDI drives. Some desktop models used combo power/data cables similar to the floppy drives. Later models used DBA ESDI or Parallel SCSI. Typically, desktop PS/2 models only permitted use of one hard drive inside the computer case. Additional storage could be attached externally using the optional SCSI interface.

Memory

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Later PS/2 models introduced the 72-pin SIMM[14] which became the de facto standard for RAM modules by the mid-1990s in mid-to-late 486 and nearly all Pentium desktop systems. The 72-pin SIMMs were 32/36 bits wide and replaced the old 30-pin SIMM (8/9-bit) standard. The older SIMMs were much less convenient because they had to be installed in sets of two or four to match the width of the CPU's 16-bit (Intel 80286 and 80386SX) or 32-bit (80386 and 80486) data bus, and would have been extremely inconvenient to use in Pentium systems (which featured a 64-bit memory bus). The 72-pin SIMMs were also made with greater capacities (starting at 1 MB and ultimately reaching 128 MB, instead of 256 KB to 16 MB (and usually no more than 4 MB) for 30-pin) and in a more finely graduated range (powers of 2, instead of powers of 4).

Many PS/2 models also used proprietary IBM SIMMs and could not be fitted with commonly available types. However industry standard SIMMs could be modified to work in PS/2 machines if the SIMM-presence and SIMM-type detection bridges, or associated contacts, were correctly rewired.[citation needed]

Models

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At launch, the PS/2 family comprised the Model 30, 50, 60 and 80;[9] the Model 25 was launched a few months later.

IBM Personal System/2 Model 30 286. Power-on self-test, bootstrapping, power-off

The PS/2 Models 25 and 30 (IBM 8525 and 8530, respectively) were the lowest-end models in the lineup and meant to replace the IBM PC and XT. Model 25s came with either an 8086 CPU running at 8 MHz, 512 KB of RAM, and 720 KB floppy disks, or 80286 CPU. The 8086s had ISA expansion slots and a built-in MCGA monitor, which could be either color or monochrome, while the 80286 models came with VGA monitor and ISA expansion slots. A cut-down Model M keyboard with no numeric keypad was standard, with the normal keyboard being an extra-cost option. There was a very rare later model called the PS/2 Model 25-SX which sported either a 16 MHz or 20 MHz 386 CPU, up to 12 MB of memory, IDE hard drive, VGA Monitor and 16 bit ISA slots making it the highest available model 25 available denoted by model number 8525-L41.

Case badge on a Model 25 SX (8525-L41)

The Model 30 had either an 8086 or 286 CPU and sported the full 101-key keyboard and standalone monitor along with three 8-bit ISA expansion slots. 8086 models had 720 KB floppies while 286 models had 1440 KB ones. Both the Model 25 and 30 could have an optional 20 MB ST-506 hard disk (which in the Model 25 took the place of the second floppy drive if so equipped and used a proprietary 3.5" form factor). 286-based Model 30s are otherwise a full AT-class machine and support up to 4 MB of RAM.

IBM Personal System/2 Model 25

Later ISA PS/2 models comprised the Model 30 286 (a Model 30 with an Intel 286 CPU), Model 35 (IBM 8535) and Model 40 (IBM 8540) with Intel 386SX or IBM 386SLC processors.

The higher-numbered models (above 50) were equipped with the Micro Channel bus and mostly ESDI or SCSI hard drives (models 60-041 and 80-041 had MFM hard drives). PS/2 Models 50 (IBM 8550) and 60 (IBM 8560) used the Intel 286 processor, the PS/2 Models 70 386 (IBM 8570) and 80 used the 386DX, while the mid-range PS/2 Model 55 SX (IBM 8555–081) and used the 16/32-bit 386SX processor. The Model 50 was revised to the Model 50 Z still with 10 MHz 80286 processor, but with memory run at zero wait state, and a switch to ESDI hard drives. Later Model 70 486 and 80 variants (B-xx) also used 25 MHz Intel 486 processors, in a complex called the Power Platform.

The externally very similar Models 60 and 80 next to each other
IBM Model 70 (case open over case closed)

The PS/2 Models 90 (IBM 8590/9590) and 95 (IBM 8595/9595/9595A) used Processor Complex daughterboards holding the CPU, memory controller, MCA interface, and other system components. The available Processor Complex options ranged from the 20 MHz Intel 486 to the 90 MHz Pentium and were fully interchangeable. The IBM PC Server 500, which has a motherboard identical to the 9595A, also uses Processor Complexes.

Other later Micro Channel PS/2 models included the Model 65SX with a 16 MHz 386SX; various Model 53 (IBM 9553), 56 (IBM 8556) and 57 (IBM 8557) variants with 386SX, 386SLC or 486SLC2 processors; the Models 76 and 77 (IBM 9576/9577) with 486SX or 486DX2 processors respectively; and the 486-based Model 85 (IBM 9585).

The IBM PS/2E (IBM 9533) was the first Energy Star compliant personal computer. It had a 50 MHz IBM 486SLC processor, an ISA bus, four PC card slots, and an IDE hard drive interface. The environmentally friendly PC borrowed many components from the ThinkPad line and was composed of recycled plastics, designed to be easily recycled at the end of its life, and used very little power.

The IBM PS/2 Server 195 and 295 (IBM 8600) were 486-based dual-bus MCA network servers supporting asymmetric multiprocessing, designed by Parallan Computer Inc.

The IBM PC Server 720 (IBM 8642) was the largest MCA-based server made by IBM, although it was not, strictly speaking, a PS/2 model. It could be fitted with up to six Intel Pentium processors interconnected by the Corollary C-bus and up to eighteen SCSI hard disks. This model was equipped with seven combination MCA/PCI slots.

PS/2 portables, laptops and notebooks

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PS/2 N33SX laptop (1992)

IBM also produced several portable and laptop PS/2s, including the Model L40 (ISA-bus 386SX), N33 (IBM's first notebook-format computer from year 1991, Model 8533, 386SX), N51 (386SX/SLC), P70 (386DX) and P75 (486DX2).

The IBM ThinkPad 700C, aside from being labeled "700C PS/2" on the case, featured MCA and a 486SLC CPU.

6152 Academic System

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The 6152 Academic System was a workstation computer developed by IBM's Academic Information Systems (ACIS) division for the university market introduced in February 1988. The 6152 was based on the PS/2 Model 60, adding a RISC Adapter Card on the Micro Channel bus. This card was a co-processor that enabled the 6152 to run ROMP software compiled for IBM's Academic Operating System (AOS), a version of BSD UNIX for the ROMP that was only available to select colleges and universities.[15]

The RISC Adapter Card contained the ROMP-C microprocessor (an enhanced version of the ROMP that first appeared in the IBM RT PC workstations), a memory management unit (the ROMP had virtual memory), a floating-point coprocessor, and up to 8 MB of memory for use by the ROMP.[16] The 6152 was the first computer to use the ROMP-C, which would later be introduced in new RT PC models.[17]

Marketing

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An IBM PS/2 in use in an office, probably late 1980s

During the 1980s, IBM's advertising of the original PC and its other product lines had frequently used the likeness of Charlie Chaplin.

Another campaign featured actors from the television show M*A*S*H playing the staff of a contemporary (i.e. late-1980s) business in roles reminiscent of their characters' roles from the series. Harry Morgan, Larry Linville, William Christopher, Wayne Rogers, Gary Burghoff, Jamie Farr, and Loretta Swit were in from the beginning, whereas Alan Alda joined the campaign later.[18]

The profound lack of success of these advertising campaigns led, in part, to IBM's termination of its relationships with its global advertising agencies; these accounts were reported by Wired magazine to have been worth over $500 million a year, and the largest such account review in the history of business.[19]

Sales

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Overall, the PS/2 line was largely unsuccessful with the consumer market, even though the PC-based Models 30 and 25 were an attempt to address that. With what was widely seen as a technically competent but cynical attempt to gain undisputed control of the market, IBM unleashed an industry backlash, which went on to standardize VESA, EISA and PCI. In large part, IBM failed to establish a link in the consumer's mind between the PS/2 MicroChannel architecture and the immature OS/2 1.x operating system; the more capable OS/2 version 2.0 was not released until 1992.[20]

The firm suffered massive financial losses for the remainder of the 1980s, forfeiting its previously unquestioned position as the industry leader, and eventually lost its status as the largest manufacturer of personal computers, first to Compaq and then to Dell. From a high of 10,000 employees in Boca Raton before the PS/2 came out, only seven years later, IBM had $600 million in unsold inventory and was laying off staff by the thousands.[21][22] After the failure of the PS/2 line to establish a new standard, IBM was forced to revert to building ISA PCs—following the industry it had once led—with the low-end PS/1 line and later with the more compatible Aptiva and PS/ValuePoint lines.

Still, the PS/2 platform experienced some success in the corporate sector where the reliability, ease of maintenance and strong corporate support from IBM offset the rather daunting cost of the machines. Also, many people still lived with the motto "Nobody ever got fired for buying an IBM". In the mid-range desktop market, the models 55SX and later 56SX were the leading sellers for almost their entire lifetimes.[citation needed] Later PS/2 models saw a production life span that took them into the late 1990s, within a few years of IBM selling off the division.

Timeline

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Timeline of the IBM Personal Computer
IBM ThinkCentreIBM NetVistaIBM Palm Top PC 110IBM PC SeriesIBM AptivaIBM PS/ValuePointThinkPadEduQuestIBM PS/noteAmbra Computer CorporationIBM PCradioIBM PS/1IBM PS/55IBM PS/2IBM Personal Computer XT 286IBM PC ConvertibleIBM JXIBM Personal Computer AT/370IBM Personal Computer ATIBM Industrial ComputerIBM PCjrIBM Portable Personal ComputerIBM Personal Computer XT/370IBM 3270 PCIBM Personal Computer XTIBM 5550IBM Personal ComputerIBM System/23 DatamasterIBM 5120IBM 5110IBM 5100
Asterisk (*) denotes a model released in Japan only

Notes

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  1. ^ From left to right: a Server 95, a Model 80, a Model 25, and a PS/2 E on top of a Model 56 and a Model 30 286

References

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  1. ^ Tooley, Mike (1995). PC-based Instrumentation and Control. Elsevier. p. 19. ISBN 9780080938271. Archived from the original on 2023-04-25. Retrieved 2023-03-21 – via Google Books.
  2. ^ Clancy, Heather (June 2, 1988). "IBM adds to second generation of personal computers". UPI. p. 219. Archived from the original on February 21, 2022. Retrieved February 21, 2022.
  3. ^ IBM Personal System/2 Hardware Interface Technical Reference (PDF). IBM. May 1988. 68X2330. Archived from the original (PDF) on 2020-10-29. Retrieved 2016-11-26.
  4. ^ "PS/2 Reference Manuals". MCA Mafia. 2006-03-04. Archived from the original on 2016-11-03. Retrieved 2016-11-26.
  5. ^ McCracken, Harry (2 April 2012). "25 Years of IBM's OS/2: The Strange Days and Surprising Afterlife of a Legendary Operating System". Time. Archived from the original on 30 September 2015. Retrieved 29 September 2015 – via techland.time.com.
  6. ^ https://www.nytimes.com/1989/02/09/business/ibm-and-rebels-head-for-battle.html
  7. ^ Borrell, Jerry (May 1992). "Opening Pandora's Box". Macworld. pp. 21–22.
  8. ^ Singh, Jai (April 10, 1995). "MCA, PS/2 bite the dust; OS/2 to follow?". InfoWorld. 17 (15): 3. Archived from the original on November 9, 2023. Retrieved August 17, 2021.
  9. ^ a b c d e BYTE editorial staff (June 1987). "The IBM PS/2 Computers". BYTE. p. 100. Retrieved 5 November 2013.
  10. ^ "Hardware Maintenance Manual" (PDF). mcamafia.de. March 1996. Archived (PDF) from the original on 25 April 2023. Retrieved 30 April 2023.
  11. ^ Gilbert Held (2000). Server Management. CRC Press. p. 199. ISBN 978-1-4200-3106-5.
  12. ^ Jim Porter (1998-12-14). "100th Anniversary Conference: Magnetic Recording and Information Storage" (PDF). disktrend.com. Archived from the original (PDF) on 2012-03-28. Retrieved 2014-03-24.
  13. ^ Ohland, Louis. "floppy". ohlandl.ipv7.net. Archived from the original on 2011-07-23. Retrieved 2011-02-19.
  14. ^ "The IBM PS/2: 25 Years of PC History". PCWorld. Archived from the original on 2018-10-04. Retrieved 2018-08-28.
  15. ^ LaPlante, Alice (1988-02-08). "Workstation Merges PS/2, RT Technology". InfoWorld. Vol. 10, no. 6. pp. 1, 81.
  16. ^ IBM Academic System 6152: Quick Reference and Reference Diskette. January 1988. p. 2.
  17. ^ The University of Michigan Computing Center (c. 1988). "UNIX Notes". U-M Computing News. Vol. 3. p. 19.
  18. ^ "M*A*S*H Cast Commercials - IMB PS/2". YouTube. Archived from the original on 2015-05-28. Retrieved 13 April 2014.
  19. ^ Wired, Issue 3.08, August 1995
  20. ^ McCracken, Harry (2 April 2012). "25 Years of IBM's OS/2: The Strange Days and Surprising Afterlife of a Legendary Operating System". Time. Archived from the original on 30 September 2015. Retrieved 29 September 2015 – via techland.time.com.
  21. ^ "IBM in Boca Raton | First Personal Computer | Companies in Boca Raton". Archived from the original on 2017-11-07. Retrieved 2017-11-03.
  22. ^ Vijayan, Jaikumar (August 1, 1994). "IBM cuts PC force, kills Ambra Corp". Computerworld. Vol. 28, no. 31. p. 4. Archived from the original on November 9, 2023. Retrieved August 7, 2022.

Further reading

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  • Burton, Greg. IBM PC and PS/2 pocket reference. NDD (the old dealer channel), 1991.
  • Byers, T.J. IBM PS/2: A Reference Guide. Intertext Publications, 1989. ISBN 0-07-009525-6.
  • Dalton, Richard and Mueller, Scott. IBM PS/2 Handbook . Que Publications, 1989. ISBN 0-88022-334-0.
  • Held, Gilbert. IBM PS/2: User's Reference Manual. John Wiley & Sons Inc., 1989. ISBN 0-471-62150-1.
  • Hoskins, Jim. IBM PS/2. John Wiley & Sons Inc., fifth revised edition, 1992. ISBN 0-471-55195-3.
  • Leghart, Paul M. The IBM PS/2 in-depth report. Pachogue, NY: Computer Technology Research Corporation, 1988.
  • Newcom, Kerry. A Closer Look at IBM PS/2 Microchannel Architecture. New York: McGraw-Hill, 1988.
  • Norton, Peter. Inside the IBM PC and PS/2. Brady Publishing, fourth edition 1991. ISBN 0-13-465634-2.
  • Outside the IBM PC and PS/2: Access to New Technology. Brady Publishing, 1992. ISBN 0-13-643586-6.
  • Shanley, Tom. IBM PS/2 from the Inside Out. Addison-Wesley, 1991. ISBN 0-201-57056-4.
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