UNIVAC 490

The UNIVAC 490 was a 30-bit word magnetic-core memory machine with 16K or 32K words; 4.8 microsecond cycle time made by UNIVAC. Seymour Cray designed this system before he left UNIVAC to join the early Control Data Corporation.

The Univac 1232 was a military version of the UNIVAC 490.

It was a commercial derivative of a computer Univac Federal Systems developed for the United States Navy. That system was the heart of the Naval Tactical Data System which pioneered the use of shipboard computers for air defense. The military version went by a variety of names: UNIVAC 1232,[1] AN/USQ-20, MIL-1206 and CP642.

Overview

Apparently at least 47 of these machines were made (serial numbers run from 101 to 147). Six were installed at NASA and played important roles in Gemini and the Apollo missions. In the Hollywood film Apollo 13, when the screens come to life after the onboard computer has been reactivated, those screens would have been responding to a Univac 490. The U490 had complete control of most or all of the data readout screens in Houston Mission Control. The USAF had two installed, as did Lockheed. Airlines using the 490 Real-Time system included Eastern and Northwest Orient - principally airline reservations systems at Eastern Air Lines (1963) and British European Airways (BEACON - 1964). Other commercial installations of the 490 Real-Time included two at Westinghouse, and one each at Alcoa, US Steel, Bethlehem Steel and General Motors.[2]

The only surviving, nearly complete, original, civilian version of the 490 Real Time System is on display at System Source in Hunt Valley, Maryland. It has six banks of memory cores. System Source also has a nearly complete set of original documentation for the machine, including original blueprints and troubleshooting data. This includes the Boss and Wilen document quoted above and cited below.

The standard Operating System was REX (RealTime Exec), except at Eastern and B.E.A. where a custom operating system was developed for airline reservations (CONTORTS - CONTrol Of Real Time System). CONTORTS was the origin of Univac's subsequent RT operating systems for 494 (STARS) and later converted to the 1100 Series (RTOS).

Architecture

The instruction word format:

  • f - Function code designator (6 bits)
  • j - Branch condition designator (3 bits)
  • k - Operand-interpretation designator (3 bits)
  • b - Operand address modification designator (3 bits)
  • y - Operand designator (15 bits)

Numbers were represented in ones' complement.

The machine provided the programmer with the following registers:

  • Seven B-registers (Address modifying index registers) 15 bits each
  • One A-register or accumulator 30 bits
  • One Q-register and auxiliary arithmetic register 30 bits

Hardware

Circuit board from the UNIVAC 490 computer on display at the Deutsches Museum
  Construction (Arithmetic unit only)[3]
   Type           Quantity
   Diodes         37,543 All types
   Transistors    13,819 All types
gollark: Real payment systems partly get around this by making the chip on the card itself do some cryptography, so it can't make payments without the card being physically there still, but I don't think there's actually anything other than trust, the law, and "security" through obscurity stopping a payment thing from deducting more money than it should?
gollark: Obviously that's not very good.
gollark: .
gollark: Example issue with the central version: you scan your card on a payment terminal to pay one currency unit. But it reads your card's data off, and can now just take as much money as it wants at any time
gollark: And that would... probably be worse than the central version.

See also

References

  1. "Computer, UNIVAC 1232".
  2. Univac 490 Failure Finding bu L. D. Boss and J. G. Wilen, August 10, 1964.
  3. UNIVAC 490 Real-Time System
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