Course details
Logic Systems
LOS Acad. year 2003/2004 Winter semester 5 credits
Boolean algebra, logic variables, logic functions, logic circuits. Standardized logic expressions: sum-of-products, product-of-sums. Reduction methods: cube, Quine-McCluskey tabular technique, map. Petrick covering method. Networks with NOT, AND, OR, NAND, and NOR elements. TANT and TONT networks. Basic arithmetic blocks. MSI blocks: MX, DC/DMX, ROM, GA, PAL, PLA. Finite state machines: Mealy machine, Moore machine. Flip-flops and latches: D, T, R-S, R, S, J-K. Simple synchronized sequential networks: registers, counters. Simple fixed and microprogrammed control units. Simple asynchronous sequential networks.
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Language of instruction
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Time span
Department
Subject specific learning outcomes and competences
An abitity to do a behaviour analysis, and to design simple digital equipments.
Learning objectives
To obtain an overview and a fundamental knowledge of a practical use of selected methods for description, behaviour analysis and design of combinational and sequential logic networks which are inside digital equipments.
Progress assessment
International students: Test "15 points", mid-term exam "25 points", homework and its evaluation in laboratory "5 points", final exam "55 points".
Course inclusion in study plans
- Programme EI-BC-3, field VTB, 2nd year of study, Compulsory
- Programme EI-BC-3 (in English), field VTB, 2nd year of study, Compulsory
- Programme EI-MGR-5, field VTI, 2nd year of study, Compulsory
- Programme EI-MGR-5 (in English), field VTI, 2nd year of study, Compulsory