IBM 9370

Last updated

IBM 9370
IBM logo.svg
BNCL - Primer Servidor de la Biblioteca Nacional ca.1972 (Vista Frontal) - Imagen 04.JPG
The 9370 system - three IBM 9309 racks, equipped with: compute nodes; storage modules; network modules.
Also known asES/9370
Developer IBM
Release date1986;38 years ago (1986)
Discontinued1989 (1989)
Operating system MVS, VM, VSE, AIX/370, DPPX [1]

The IBM 9370 systems are "baby mainframe" midrange computers, [2] released 1986 at the very low end of, and compatible with System/370. The media of the day, referring to the VAX systems manufactured by Digital Equipment Corporation (DEC), carried IBM's alleged "VAX Killer" phrase, albeit often skeptically. [3]

Contents

History

The IBM 9370 was created in the aftermath of the failed Fort Knox project, which attempted to consolidate all of IBM's midrange systems into a single IBM 801-based hardware platform. [4] The announcement [5] described the IBM 9370 as a "super-mini computer" for commercial and engineering/scientific use—compact, rack-mounted, designed for an office environment, not needing a data center to be used.

At the time of announcement the systems were positioned between IBM's midrange systems (IBM System/36 and IBM System/38), and the IBM 4300 mainframe series in performance. [6] The IBM 9370 was partially a replacement [7] for the also-not-so-successful IBM 8100 distributed processing engine. High-level 9370 models were mentioned as a substitution [8] when low-level 4300 models were withdrawn from marketing 1987.

Intended to be sold in large amounts as departmental machines ("VAX killers"), [9] the 9370 initially suffered from lack of software and the failure of IBM to market it properly. [10] Nevertheless, the systems were popular at least with users actually needing System/370 compatibility while not wanting to accept the expense of a larger system (like e.g. smaller software houses) or with users (like some large IBM customers) preferring hierarchically structured distributed processing solutions rigidly managed by central communication controllers like IBM 37xx. By 1990 the 9370 line had around 6,300 installed systems and generated over 2 billion dollars in sales for IBM. [10] The relatively lacklustre commercial success of the 9370 served as an impetus for the creation of the much more successful AS/400 midrange systems. [11]

While becoming part of the IBM Enterprise Systems Architecture in 1988 ("ES/9370" like "ES/4300" and "ES/3090"), the 9370s weren't XA systems. In 1990 IBM announced the "ES/9000" series; the rack-mounted models 120-170 with 31-bit Enterprise Systems Architecture (ESA) and ESCON were the suggested upgrades for ES/9370 users. [12]

Models and options

Single-rack 9375 system IBM 9375 system (1).jpg
Single-rack 9375 system

Early models

ModelModel No.LevelMemory (MB) I/O card slotsDASD/Tape ControllerWorkstation ControllerMVS/SP capability
20, 309373low priced, entry level4, 8, 1671-22no
40, 50, 55, 609375mid-size8, 16171-42-4larger Mod.60 only
80, 909377highest (5x Mod.20)8, 16541-122-12yes

The original 9370 hardware was based on technology created for the Fort Knox project - reusing some of the IBM 801-based processor design, and the SPD I/O bus which was derived from the Series/1 bus. [4] [13] [14] All models included a floating-point accelerator as well as a processor console to install, operate and maintain the system. A militarized variant of the 9370 named the System/MIL-370 was announced alongside the original 9370 models, designed to operate in harsher environmental conditions than the standard 9370 hardware. [5]

Each DASD/Tape Controller had eight device addresses and provided a data transfer rate of 3 MB. IBM 9332 (368 MB) and IBM 9335 (824 MB) DASD and IBM 9347 nine-track half-inch tape have been announced for the 9370s.

Each Workstation Controller could interface up to 32 IBM 3270 terminals / printers.

Software for all models included VM/SP+VM/IS, VSE/SP, and VM/SP+IX/370, while MVS/SP was only available for larger models.

Enterprise systems architecture models

An upgrade (Miscellaneous Equipment Specification, MES) was available which involved - among other things - replacing the 9332 FBA drives with CKD enabled DASDs.

In 1988, Distributed Processing Programming Executive DPPX/370 for ES/9370 was made available to customers wanting to migrate [15] from the IBM 8100 running DPPX.

The "Micro Channel 370" Models 010, 012, 014 (later 110, 112, 114) ES/9371 introduced in 1990 used the Micro Channel bus and a 386 CPU for input/output (I/O) processing. Additionally, a dual-processor model was offered, providing a second 386 CPU for DOS and OS/2 applications, implementing a high-speed link between the processors. With the models mentioned, APPC support was added, using LU6.2 based on SNA PU2.1.

See also

Notes

    Related Research Articles

    IBM mainframes are large computer systems produced by IBM since 1952. During the 1960s and 1970s, IBM dominated the computer market with the 7000 series and the later System/360, followed by the System/370. Current mainframe computers in IBM's line of business computers are developments of the basic design of the System/360.

    <span class="mw-page-title-main">IBM AS/400</span> IBM midrange computer (1988–2013)

    The IBM AS/400 is a family of midrange computers from IBM announced in June 1988 and released in August 1988. It was the successor to the System/36 and System/38 platforms, and ran the OS/400 operating system. Lower-cost but more powerful than its predecessors, the AS/400 was extremely successful at launch, with an estimated 111,000 installed by the end of 1990 and annual revenue reaching $14 billion that year, increasing to 250,000 systems by 1994, and about 500,000 shipped by 1997.

    <span class="mw-page-title-main">IBM System/370</span> Family of mainframe computers 1970–1990

    The IBM System/370 (S/370) is a range of IBM mainframe computers announced as the successors to the System/360 family on June 30, 1970. The series mostly maintains backward compatibility with the S/360, allowing an easy migration path for customers; this, plus improved performance, were the dominant themes of the product announcement.

    The 801 was an experimental central processing unit (CPU) design developed by IBM during the 1970s. It is considered to be the first modern RISC design, relying on processor registers for all computations and eliminating the many variant addressing modes found in CISC designs. Originally developed as the processor for a telephone switch, it was later used as the basis for a minicomputer and a number of products for their mainframe line. The initial design was a 24-bit processor; that was soon replaced by 32-bit implementations of the same concepts and the original 24-bit 801 was used only into the early 1980s.

    <span class="mw-page-title-main">MUSIC/SP</span> Defunct time-sharing system software

    MUSIC/SP was developed at McGill University in the 1970s from an early IBM time-sharing system called RAX.

    <span class="mw-page-title-main">VM (operating system)</span> Family of IBM operating systems

    VM is a family of IBM virtual machine operating systems used on IBM mainframes System/370, System/390, zSeries, System z and compatible systems, including the Hercules emulator for personal computers.

    <span class="mw-page-title-main">VEB Robotron</span> East German manufacturer of computers and consumer electronics

    VEB Kombinat Robotron was the largest East German electronics manufacturer. It was headquartered in Dresden and employed 68,000 people in 1989. Its products included personal computers, SM EVM minicomputers, the ESER mainframe computers, various computer peripherals as well as microcomputers, radios, television sets and other items including cookie press Kleingebäckpresse Typ 102.

    <span class="mw-page-title-main">IBM 8100</span>

    The IBM 8100 Information System, announced Oct. 3, 1978, was at one time IBM’s principal distributed processing engine, providing local processing capability under two incompatible operating systems and was a follow-on to the IBM 3790.

    IBM manufactured magnetic disk storage devices from 1956 to 2003, when it sold its hard disk drive business to Hitachi. Both the hard disk drive (HDD) and floppy disk drive (FDD) were invented by IBM and as such IBM's employees were responsible for many of the innovations in these products and their technologies. The basic mechanical arrangement of hard disk drives has not changed since the IBM 1301. Disk drive performance and characteristics are measured by the same standards now as they were in the 1950s. Few products in history have enjoyed such spectacular declines in cost and physical size along with equally dramatic improvements in capacity and performance.

    <span class="mw-page-title-main">IBM 4300</span> Computer product line

    The IBM 4300 series are mid-range systems compatible with System/370 that were sold from 1979 through 1992. They featured modest electrical and cooling requirements, and thus did not require a data center environment. They had a disruptive effect on the market, allowing customers to provide internal IBM computing services at a cost point lower than commercial time-sharing services. All 4300 processors used a 3278-2A, 3279-C or 3205 display console rather than a 3210 or 3215 keyboard/printer console.

    <span class="mw-page-title-main">IBM DPPX</span> Operating system

    Distributed Processing Programming Executive is a discontinued operating system introduced by IBM, pre-installed on the IBM 8100 and later ported to the ES/9370.

    A logical partition (LPAR) is a subset of a computer's hardware resources, virtualized as a separate computer. In effect, a physical machine can be partitioned into multiple logical partitions, each hosting a separate instance of an operating system.

    In computing, channel I/O is a high-performance input/output (I/O) architecture that is implemented in various forms on a number of computer architectures, especially on mainframe computers. In the past, channels were generally implemented with custom devices, variously named channel, I/O processor, I/O controller, I/O synchronizer, or DMA controller.

    Since the rise of the personal computer in the 1980s, IBM and other vendors have created PC-based IBM mainframe-compatible systems which are compatible with the larger IBM mainframe computers. For a period of time PC-based mainframe-compatible systems had a lower price and did not require as much electricity or floor space. However, they sacrificed performance and were not as dependable as mainframe-class hardware. These products have been popular with mainframe developers, in education and training settings, for very small companies with non-critical processing, and in certain disaster relief roles.

    The history of IBM mainframe operating systems is significant within the history of mainframe operating systems, because of IBM's long-standing position as the world's largest hardware supplier of mainframe computers. IBM mainframes run operating systems supplied by IBM and by third parties.

    The VAX 9000 is a discontinued family of mainframes developed and manufactured by Digital Equipment Corporation (DEC) using custom ECL-based processors implementing the VAX instruction set architecture (ISA). Equipped with optional vector processors, they were marketed into the supercomputer space as well. As with other VAX systems, they were sold with either the VMS or Ultrix operating systems.

    <span class="mw-page-title-main">IBM 303X</span>

    The IBM 303X is a discontinued line of mainframe computers, the first model of which, the IBM 3033 Processor, nicknamed "The Big One", was introduced March 25, 1977.

    <span class="mw-page-title-main">IBM System/390</span> Line of mainframe computers

    The IBM System/390 is a discontinued mainframe product family implementing ESA/390, the fifth generation of the System/360 instruction set architecture. The first computers to use the ESA/390 were the Enterprise System/9000 (ES/9000) family, which were introduced in 1990. These were followed by the 9672, Multiprise, and Integrated Server families of System/390 in 1994–1999, using CMOS microprocessors. The ESA/390 succeeded ESA/370, used in the Enhanced 3090 and 4381 "E" models, and the System/370 architecture last used in the IBM 9370 low-end mainframe. ESA/390 was succeeded by the 64-bit z/Architecture in 2000.

    The IBM 30XX mainframe lines are a group of lines of high-end System/370-compatible mainframes.

    References

    1. "IBM ES/9370: Extending enterprise solutions". IBM. 1989. Retrieved July 9, 2022.
    2. David E. Sanger (October 8, 1986). "I.B.M.'s Overseas Sales Slowing; Stock Plunges". The New York Times . ...the introduction of a new series of small mainframe computers, called the I.B.M. 9370 Information System, that the company is counting on to revive its offerings in the midrange computer market.
    3. David E. Sanger (January 3, 1988). "The Moment of Truth for Big Blue". The New York Times . appears to be slaying precious few Vaxes
    4. 1 2 Frank G. Soltis (1997). Inside the AS/400, Second Edition. Duke Press. ISBN   978-1882419661.
    5. 1 2 IBM 9370 INFORMATION SYSTEM OVERVIEW
    6. Network World article Dec.22, 1986 p.28
    7. June 16th 1989 CW article Archived 2012-07-31 at archive.today mentioning 8100-9370 replacement (in German)
    8. Network World article Jun.29, 1987 p.27
    9. Christine Winter (June 20, 1988). "New IBM Midrange To Debut". Chicago Tribune . The 9370, a midrange computer nicknamed the VAX-killer because it reportedly was designed to attack Digital`s stronghold, its VAX line...
    10. 1 2 Hamilton, Rosemary (February 5, 1990). "IBM 9370 user survives battle of misconceptions". Computerworld. Retrieved February 22, 2013.
    11. Christine Winter (June 20, 1988). "NEW IBM MIDRANGE TO DEBUT". Chicago Tribune .
    12. IBM Corporation (January 23, 2003). "System/390 ES/9000 Processor characteristics". IBM Archives. Archived from the original on January 16, 2005. Retrieved February 22, 2013.
    13. Mitchell, James (September 1988). "Implementing a mainframe architecture in a 9370 processor". ACM SIGMICRO Newsletter. 19 (3): 3–10. doi:10.1145/62185.62186. ISSN   1050-916X. S2CID   14602753.
    14. Cocke, John; Markstein, Victoria (January 1990). "The evolution of RISC technology at IBM" (PDF). IBM Journal of Research and Development. 34 (1): 4–11. doi:10.1147/rd.341.0004.
    15. IEEE Xplore - Porting DPPX from the IBM 8100 to the IBM ES/9370

    Further reading