
- T. D. Sterling, S. V. Pollack, and J. J. Weinkam, "A Single Track Universal Curriculum for Computing Science", Infor, 14:1, 40--52 (1976).Google Scholar
- John F. Wakerly and Edward J. McCluskey, "Microcomputers in the Computer Engineering Curriculum", Computer, 10:1, 32--38 (1977).Google Scholar
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- Peter R. Rony and David G. Larsen, "Teaching Microcomputer Interfacing to Non-Electrical Engineers", Ibid, 53--57.Google Scholar
- Michael Faiman, A. C. Weaver, and R. W. Catlin, "MUMS-A Reconfigurable Microprocessor Architecture", Ibid, 11--17.Google Scholar
- T. Fancott, J. Blaison, and K. Logan, "A Generalized Hardware/Software Support System for Microprocessor Applications Research", Proceedings of the Symposium on Computers Electronics and Control, Ed. M. H. Hamza, Calgary 1976, Acta Press, Calgary, p. 6--9.Google Scholar
- Bernard J. Carey, "A Microprocessor Laboratory for a University Environment", Computer, 10:1, 40--46(1977).Google Scholar
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- Larry Krummel and Gaymond Schutz, "Advances in Microcomputer Development Systems, Computer, 10:2, 13--19(1977).Google Scholar
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- D. R. Schertz and T. L. Stewart, "Microprocessor Instruction in Electrical Engineering and Electrical Engineering Technology", MIMI 76, Proceedings of the International Symposium on MINI and MICRO Computers, Ed. M. H. Hamza, IEEE Computer Society, 235--239(1977).Google Scholar
- K. Torku and S. G. Zaky, "Implementation of a Standard Interface for Control of Experiments Using a Microprocessor", Ibid, 26--30.Google Scholar
- J. Doyle, "Ideas for a Laboratory Course on Microcomputers", Ibid, 240--244.Google Scholar
- G. L. Bunza, "Automatic Multi-Target Code Generation for Micro- Processors", Ibid, 9--15.Google Scholar
- Gearold R. Johnson and Robert A. Mueller, "Automated Generation of Cross-System Software for Microcomputers", Computer, 10:1, 23--31(1977).Google Scholar
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- W. J. Dejka, "Microcomputer Standardization Concepts", Computer, 10:2, 54--56(1977).Google Scholar
Digital Library
- D. Denney and J. Broom, "Why Not a Standard 100-Wire Bus Structure", Computer, 9:10, 57--58(1976).Google Scholar
- The author credits a referee for suggesting the final introductory laboratory topic.Google Scholar
Index Terms
(auto-classified)Computing science hardware laboratories and the LSI revolution
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