IBM System/34

The IBM System/34 was an IBM midrange computer introduced in 1977.[2] It was withdrawn from marketing in February 1985.[2] It was a multi-user, multi-tasking successor to the single-user System/32. It included two processors, one based on the System/32 and the second based on the System/3. Like the System/32 and the System/3, the System/34 was primarily programmed in the RPG II language.[3]

IBM System/34
IBM System/34 type 5340
Also known asS/34
ManufacturerInternational Business Machines Corporation (IBM)
Product familySystem/34
Release dateApril 1977 (1977-04)
DiscontinuedFebruary 1985
Operating systemSystem Support Program
CPUMSP and CSP
Memory48K - 256K
Dimensions1220x660x1570mm[1]
PredecessorIBM System/32
SuccessorIBM System/36, IBM System/38
RelatedIBM 5520
WebsiteOfficial website IBM Archives

Hardware

The 5340 System Unit contained the processing unit, the disk storage and the diskette drive. It had several access doors on both sides. Inside, were swing-out assemblies where the circuit boards and memory cards were mounted. It weighed 700 lb (320 kg) and used 220V power.[4] The IBM 5250 series of terminals were the primary interface to the System/34.

Processors

S/34s had two processors, the Control Storage Processor (CSP), and the Main Storage Processor (MSP). The MSP was the workhorse, based on System/3 architecture; it performed the instructions in the computer programs. The CSP was the governor, a different processor with different RISC-like instruction set, based on System/32 architecture; it performed system functions in the background. The CSP also executed the optional Scientific Macroinstructions, which were a set of emulated floating point operations used by the System/34 Fortran compiler and optionally in assembly code.[5] The clock speed of the CPUs inside a System/34 was fixed at 1 MHz for the MSP and 4 MHz for the CSP. Special utility programs were able to make direct calls to the CSP to perform certain functions; these are usually system programs like $CNFIG which was used to configure the computer system.

Picture of a System/34 showing the diskette magazine drive

Memory and storage

The smallest S/34 had 48K of RAM and an 8.6 MB hard drive. The largest configured S/34 could support 256K of RAM and 256MB of disk space. S/34 hard drives contained a feature called "the extra cylinder," so that bad spots on the drive were detected and dynamically mapped out to good spots on the extra cylinder. Disk space on the System/34 was organized by blocks of 2560 bytes.

The System/34 supported memory paging, referring to as swapping.[6] The System/34 could either swap out entire programs, or individual segments of a program in order to free up memory for other programs to run.

One of the machine's most distinctive features was an off-line storage mechanism that utilized "magazines" - boxes of 8-inch floppies that the machine could load and eject in a nonsequential fashion.[7][8][9]

Software

IBM System/34 with 5251 terminal (on top) and 5211 printer (right, with top opened)

Operating System

The System Support Program (SSP) was the only operating system of the S/34. It contained support for multiprogramming, multiple processors, 36 devices, job queues, printer queues, security, indexed file support. Fully installed, it was about 5 MB.[10] The Operational Control Language (OCL) was the control language of SSP.

Programming

The System/34's initial programming languages were limited to RPG II and Basic Assembler[11] when introduced in 1977.[12] FORTRAN was fully available six months after the 34's introduction,[7] and COBOL was available as a PRPQ.[13] BASIC was introduced later.

Successor systems

The IBM System/38 was intended to be the successor of the System/34 and the earlier System/3x systems. However, due to the delays in the development of the System/38 and the high cost of the hardware once complete, IBM developed the simpler and cheaper System/36 platform which was more widely adopted than the System/38.[14] The System/36 was an evolution of the System/34 design, but the two machines were not object-code compatible. Instead, the System/36 offered source code compatibility, allowing System/34 applications to be recompiled on a System/36 with little to no changes. Some System/34 hardware was incompatible with the System/36.

A third party product from California Software Products, Inc. named BABY/34 allowed System/34 applications to be ported to IBM PC compatible hardware running MS-DOS. [15] [16]

References

  1. ibm :: system34 :: GA21-9242-1 System 34 Installation Manual-Physical Planning Sep77. 1977-03-13.
  2. IBM Corporation (23 January 2003). "System/34". IBM Archives. Retrieved December 4, 2012.
  3. "System 34 RPG II Reference Manual" (PDF).
  4. "3533 Spring Creek Road". The New York Times. March 1, 2019. Insulated Shop space, with 220V power.
  5. "IBM System/34 and IBM System/32 Scientific Macroinstructions Functions Reference Manual" (PDF). Bitsavers. IBM. July 1978. Retrieved 2021-12-22.
  6. "System/34 Concepts and Design Guide" (PDF). IBM. January 1982. Retrieved 2021-08-01.
  7. System/34 Introduction (PDF). March 1978.
  8. "the diskette magazine drive can process up to 23 diskettes without manual intervention. -p.11
  9. "three slots for holding individual diskettes and two slots for holding magazines of 10 individual diskettes." -p.20
  10. "IBM System/34 System Support Program Logic Manual" (PDF).
  11. "Fortran IV One Highlight Of IBM 34 Enhancements". Computerworld. September 26, 1977. p. 23.
  12. Andrew Pollack (May 17, 1983). "I.B.M. introduces computer to replace System 34 model". The New York Times.
  13. "potentially available ... special order"
  14. Frank G. Soltis (1997). Inside the AS/400, Second Edition. Duke Press. ISBN 978-1882419661.
  15. "BABY/34™ Software enables you to run IBM System/34 RPG II programs on your PCs, XTs and ATs". Computerworld. March 18, 1985. p. 50.
  16. "Product Briefs". InfoWorld. July 21, 1986. p. 47.

Further reading

  • Massoglia, Charles. Everything You Always Wanted to Know About the System/34 But Nobody Told You.
  • Massoglia, Charles. System/3, System/34, and System/36 Disk Sort as a Programming Language.
  • Massoglia, Charles. Writing and Using System/34 Procedures Effectively.
  • Lee, Merikay. Everything You Always Wanted to Know About POP But Nobody Told You.
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