Digital educational booklet 2016/2017
| 1IAC2 | Logic circuits | Computer Science - Apprentissage | S5 | ||||||
|---|---|---|---|---|---|---|---|---|---|
| Cours : 10.5 h | TD : 9.5 h | TP : 15 h | Projet : 0 h | Total : 35 h | |||||
| Responsable : Matthieu Denoual | |||||||||
| Pré-requis | |
|---|---|
| Non renseigné | |
| Objectifs de l'enseignement | |
| Provide basic knowledge for the implementation of combinational and sequential logic circuits. | |
| Programme détaillé | |
| - Count and coding - Combinatorial logic - Binary operators - Reduction of logic functions - Decoders, demultiplexers, multiplexers, memories, accomplishments canonical - Dynamic behavior of a logic circuit; hazards - Technological aspects - Latches, flip-flops, shift registers - Analysis of asynchronous sequential circuits - Analysis and synthesis of synchronous counters - Petri net - State machine |
|
| Applications (TD ou TP) | |
| Perform simple and complex combinational and sequential circuits. | |
| Compétences acquises | |
| Ability to analyze existing circuits. Ability to synthesize a logical system that meets specifications. | |
| Bibliographie | |
| J.-M. Bernard et J.Hugon, De la logique câblée aux microprocesseurs, Eyrolles R. Tocci, Circuits numériques, Dunod R. Letocha, Circuits numériques, McGraw-Hill |
© 2024 - ENSICAEN ( Legal Notices - Credits )