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1 |
Title of discipline |
Computer-aided design systems for hardware-software systems |
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2 |
Course of teaching |
4, specialty 1-31 03 01-04 Mathematics (scientific and design activity) |
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3 |
Semester of teaching |
7 |
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4 |
Number of credits |
4 |
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5 |
Full name of lecturer |
Ph. D., Associate Professor Deryushev Andrey Anatol’evich |
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6 |
Objectives of the study disciplines |
Increase the level of professional competence of students in the field of creation and use of modern CAD systems in the development of various universal and specialized hardware and software devices. As a result of studying the academic discipline, the student must: know: – basic concepts, definitions and means of computer-aided design; – structure and basic capabilities of modern CAD systems; – methods for verifying the behavior of the system being created at different levels of its presentation and the means of performing such verification; – methods for designing the design of the system being created at various levels of its representation and the capabilities of the means for performing such design; – methods and algorithms for automatic synthesis of the design of the system being created; be able to: – use the knowledge gained in the automated design of various software and hardware systems; possess: – the main methods of computer-aided design of software and hardware systems using modern CAD systems. |
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7 |
Prerequisites |
“Introduction to the specialty”, “Programming methods and informatics”, “Discrete mathematics and graph theory”, “Theory of Boolean functions”, “Fundamentals of mathematical electronics”, “Fundamentals of mathematical cybernetics”, “Languages of description of hardware and software systems”, “Theory of Signals, Circuits and Circuitry”, “System engineering of software and hardware systems”, “ Applied theory of automata”, “Information Theory”, “Programmable Logic Integrated Circuits (FPGAs)”. |
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8 |
Content of discipline |
Mathematical models in CAD. Technical means of CAD. Behavior modeling. Automated design of a structure. Creation of hardware-software devices using modern design systems. |
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9 |
Recommended literature |
1. Stepanets V.Ya. CAD. Lecture notes and a set of slides. Electronic educational and methodical manual. – Minsk: MMF BSU, 2015. – 580 p. 2. Gazenkov G.G. Basics of designing integrated circuits and systems. – Moscow: BINOM. Laboratory of Knowledge, 2005. – 295 p. 3. Suvorova E.A., Sheinin Yu.E. Designing digital systems on VHDL. – St. Petersburg: BHV-Petersburg, 2003. – 574 p. 4. Rimsky G.V. The theory of computer-aided design systems: Intellectual CAD on the basis of computer systems and networks. -Mn .: Navuka i tekhnika, 1994.- 631 p. 5. The theoretical foundations of CAD: Textbook for high schools / Koryachko V.P., Kureichik V.M., Norenkov I.P. – Moscow: Energoatomizdat, 1987. – 400 p. 6. Gursky L.I., Stepanets V.Ya. Design of microcircuits. -Mn .: Navuka i tekhnika, 1991.- 295 p. 7. Automation of BIS design. Issue 1-6. Edited by G. G. Kazennov . – M.: Higher School, 1990.- 353 p. 8. Automation of the design of digital devices. Edited by S.S. Badulina.-M .: Radio and communication, 1981.- 240 p. 9. Il’in V.N. Fundamentals of automation of circuit design. -M .: Energia, 1979.- 392 p. 10. Selyutin V.A. Computer-aided design of electronic devices. -M .: Sovetskoye radio, 1977. – 384 p. |
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10 |
Teaching Methods |
Problematic, communicative with elements of educational and research activity, controlled independent work. |
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11 |
Language of teaching |
Russian |
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12 |
Conditions (requirements), actual control
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– tests papers – laboratory works – colloquiums |
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13 |
Form of current certification |
Exam |