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The F-14's Central Air Data Computer, also abbreviated as CADC, computes altitude, vertical speed, air speed, and mach number from sensor inputs such as pitot and static pressure and temperature.[1] From 1968 to 1970, the first CADC to use custom digital integrated circuits was developed for the F-14.[2]

A Garrett-manufactured F-14A dual channel central air data computer (CADC)

History

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The CADC was a multi-chip integrated flight control system developed by Garrett AiResearch and used in early versions of the US Navy's F-14 Tomcat fighter. It is notable for early use of MOS custom integrated circuits and has been claimed as the first microprocessor.[2] The first commercial microprocessor was the contemporary Intel 4004. The 4004 did not have nearly the computing power or interfacing capability required to perform the functions of the CADC. At the time, the best integrated circuit (chip) technology available lacked the scale (number of transistors per chip) necessary to build a single-chip microprocessor for a flight control system.

 
The MP944 chip set was the core of the CADC used to control the swing wings of the F-14 Tomcat naval interceptor.

The CADC was designed and built by a team led by Steve Geller and Ray Holt, and supported by the startup American Microsystems. Design work started in 1968 and was completed in June 1970, beating a number of electromechanical systems that had also been designed for the F-14. It was classified by the Navy[3] until 1998. Ray Holt's story of this design and development is presented in his autobiography The Accidental Engineer.[2]

The CADC consisted of an A-to-D converter, several quartz pressure sensors, and a number of MOS-based microchips. Inputs to the system included the primary flight controls, a number of switches, static and dynamic air pressure (for calculating stall points and aircraft speed) and a temperature gauge. The outputs controlled the wing sweep and the maneuver flaps and slats and limited allowable control inputs.[4]

The CADC's MP944 chip set ran at 375 kHz, executing 9375 instructions per second. It contained six chips used to build the CADC, all based on a 20-bit fixed-point-fraction two's complement number system. They were the parallel multiplier unit (PMU) in a 28-pin DIP, the parallel divider unit (PDU) (28-pin DIP), the random-access storage (RAS) (14-pin DIP), the read-only memory (ROM) (14-pin DIP), the special logic function (SLF) (28-pin DIP), and the steering logic unit (SLU) (28-pin DIP). The complete system of 28 circuits consists of 1 PMU, 1 PDU, 1 SLF, 3 RASs, 3 SLUs, and 19 ROMs, enabled by 74,442 transistors.[5]

In 1971, Holt wrote an article about the system for Computer Design magazine.[6] The Navy classified it, and released it in 1998.

References

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  1. ^ Dictionary of Military and Associated Terms. DIANE Publishing. Oct 1, 1987. p. 63. ISBN 9780941375108.
  2. ^ a b c Holt, Raymond; Sorge, Leo (2017). The Accidental Engineer. Lulu.com. p. 36. ISBN 9781387313488. Archived from the original on 26 December 2020. Retrieved 2 June 2020.
  3. ^ Dixit, Sudhir; Prasad, Ramjee (2017). Human Bond Communication: The Holy Grail of Holistic Communication and Immersive Experience. 9781119341338. p. 211. ISBN 9781119341338. Archived from the original on 26 December 2020. Retrieved 2 June 2020.
  4. ^ NATOPS Flight Manual Navy Model F-14D Aircraft (PDF). Department of the Navy. 15 Jan 2004. pp. 11–1, 20–6, 14–42.
  5. ^ "Ray Holt and the history of MP944/Cadc @ Rome Technopole, 2017 - YouTube". www.youtube.com. Archived from the original on 2020-12-26. Retrieved 2020-11-06.
  6. ^ 1971 paper on the CADC (which was classified and never published)

Further reading

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