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Ferranti Pegasus

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A typical Pegasus computer installation, on view at the Science Museum, London

Pegasus was an early British vacuum-tube (valve) computer built by Ferranti Ltd that pioneered design features to improve usability for both engineers and programmers.[1][2][3] It was originally named the Ferranti Package Computer as its hardware design followed that of the Elliott 401 with modular plug-in packages.[4] Much of the development was the product of three men: W. S. (Bill) Elliott (hardware), Christopher Strachey (software) and Bernard Swann (marketing and customer support).[5] It was Ferranti's most popular valve computer[6] with 38 units being sold. The first Pegasus was delivered in 1956[7] and the last was delivered in 1959. Ferranti received funding for the development from the National Research Development Corporation (NRDC).[8]

At least two Pegasus machines survive today: one in The Science Museum, London and one which was displayed in the Science and Industry Museum, Manchester but which has now been moved to the storage in the Science Museum archives at Wroughton. The Pegasus in The Science Museum, London ran its first program in December 1959 and was regularly demonstrated until 2009 when it developed a severe electrical fault.[9][10] In early 2014, the Science Museum decided to retire it permanently,[11] effectively ending the life of one of the world's oldest working computers. The Pegasus officially held the title of the world's oldest computer until 2012, when the restoration of the Harwell computer was completed at the National Museum of Computing.

Design

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In those days it was common for it to be unclear whether a failure was due to the hardware or the program. As a consequence, Christopher Strachey of NRDC, who was himself a brilliant programmer,[12] recommended the following design objectives:

  1. The necessity for optimum programming (favoured by Alan Turing) was to be minimised, "because it tended to become a time-wasting intellectual hobby of the programmers".
  2. The needs of the programmer were to be a governing factor in selecting the instruction set.
  3. It was to be cheap and reliable.

The first objective was only partially met, because both program code and the data on which it was to operate had to be in the 128 words of primary storage contained in 8-word nickel delay lines. The rest of the memory was held on a 7936-word magnetic drum,[13] which rotated at 3750 rpm,[14] so it was often necessary to use ingenuity to reduce the number of transfers between the fast store and the drum.

The front panel of the Pegasus

Pegasus had eight accumulators, seven of which could also be used as index registers, the first computer to allow this dual use. Accumulators 6 and 7 were known as p and q and were involved in multiplication and division and some double-length shift instructions. Each word contained 39 bits plus 1 bit for parity checking. Two 19-bit instructions were packed into one word, with the extra bit that could be used to indicate a breakpoint (optional stop), to assist in debugging. In line with Strachey's second objective, it had a relatively generous instruction set for a computer of its time, but there was no explicit hardware provision for handling either characters or floating-point numbers.

The speed of arithmetic operations was about the same as in the Elliott 402 computer, which could add in 204 microseconds and multiply in 3366 microseconds. The Pegasus basic instruction cycle time for add/subtract/move and logical instructions was 128 microseconds. Multiply, divide, justify and shift instructions took a variable time to complete. Transfers to and from the drum were synchronous. The layout of blocks on the drum was interleaved to allow some processing between transfers to/from consecutive blocks. The computer was advertised as weighing 2,560 lb (1.2 t).[15]

To what extent Strachey's third objective was reached, depends on how one views a price of £50,000 for Pegasus 1, which did not have magnetic tape drives, line printer or punched card input and output. The modular design with plug-in units of hardware did, however, make it very reliable by the standards of the day, and maintenance was "a doddle of a job".[10] In its second year of use in 1958–9, the Pegasus at King's College (part of Durham University) in Newcastle upon Tyne had a typical reliability in excess of 98%, and 95.4% overall.[16]

Applications

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A printout from a Pegasus computer

The initial version of Pegasus, Pegasus 1 was intended for scientific and engineering applications. Its input was via 5-hole paper tape with output on tape. The variant for business data processing was called Pegasus 2 and could be equipped with punched cards, magnetic tape and line printer.[17]

In 1956 the first Pegasus was used to calculate the stresses and strains in the tail plane of the Saunders-Roe SR.53;[citation needed] the results were used to check the manufacturer's figures; the programmer was Anne Robson. Because of the importance of a computer, it was housed in the drawing room, complete with an Adam's ceiling, of Ferranti's London office in Portland Place.

A Pegasus 1 was installed at Cybor House, Sheffield by Stafford Beer for the use of United Steel. It was the first computer installed for management cybernetics.[18] The Pegasus at Southampton University was used for analysis of ground resonance data for the Saro P.531 helicopter, which eventually entered production as the Westland Scout and Westland Wasp.[19]

In 1957 a Pegasus computer was used to calculate 7480 digits of π, a record at the time. In 1959 Handley Page Ltd were advertising for experienced Pegasus programmers to join their aviation design team at Cricklewood, London [20]

The Computing Laboratory at Newcastle University (then "King's College, Durham University") was established in 1957, and a Ferranti Pegasus was installed as the first computer – reputed at the time to be the first computer of any kind in the North East of England.

The University of Leeds had a Pegasus computer, run by Sandy Douglas. This was used, among other things, for a project to process the University's matriculation records[21] and by the British Market Research Bureau to analyze National Readership Survey data.[22]

Other people who worked on the Pegasus included Hugh McGregor Ross and Donald B. Gillies.

See also

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References

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  1. ^ Ferranti Computers 1953-64 (PDF), Museum of Science & Industry, 2011, archived from the original (PDF) on 2 October 2014, retrieved 15 November 2014.
  2. ^ Merry, Ian (Autumn 1993), "The design of Pegasus", Resurrection: The Bulletin of the Computer Conservation Society (7), ISSN 0958-7403.
  3. ^ Pegasus – a vintage British computer, University of Essex.
  4. ^ Lavington (1980), p. 79.
  5. ^ Ross (2012), p. 1.
  6. ^ Burton, Chris (18 November 2003), "Ferranti Pegasus, Perseus and Sirius: Delivery Lists and Applications" (PDF), CCS-F3X1 (4), retrieved 18 June 2022.
  7. ^ "COMPUTERS, OVERSEAS: 3. PEGASUS, Ferranti Limited, England". Digital Computer Newsletter. 8 (3): 11. Jul 1956.[dead link]
  8. ^ Lavington (1980), p. 102.
  9. ^ The Pegasus Incident and its Aftermath, retrieved February 23, 2018.
  10. ^ a b The Science Museum (2015).
  11. ^ Computer Conservation Society Projects list, retrieved June 8, 2014.
  12. ^ Berners-Lee (1969).
  13. ^ Felton (1962), p. 279.
  14. ^ Weik (1957), p. 112.
  15. ^ Weik (1957), p. 114.
  16. ^ Page, E. S. (1959). University Computing Laboratory – Report of the Director, 1958/59 (Report). University of Durham. p. 9. There have been two periods during which the performance has fallen well below its normal standard, but in spite of these, the average efficiency, measured by the ratio of good time to time available, has been 95.4 per cent. over the year, and exceeded 98 per cent. normally.
  17. ^ Felton (1962), p. 13.
  18. ^ Cabezas, Guido. "Stafford's Curriculum Vitae". Guido Cabezas Fuentealba. Universidad del BioBio. Retrieved 18 August 2015.
  19. ^ "1964 | 2166 | Flight Archive". Archived from the original on 2014-12-02.
  20. ^ "Handley Page Ltd advert" (PDF). Flight. 13 November 1959. Archived from the original (PDF) on 2016-08-18. Retrieved 2016-07-04.
  21. ^ P. F. Windley; L. R. Kay; A. Rowland-Jones (1960). "Data Processing in University Administration". The Computer Journal. 3 (1): 15–20. doi:10.1093/comjnl/3.1.15.
  22. ^ Downham, John (1993). BMRB International: The First Sixty Years, 1933–1993. London: BMRB International. p. 89.

Bibliography

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