EGR-2440 - Digital Logic Circuit Design* (3) Prerequisite: EGR-1105 Co-requisite: EGR-1150 or CSC-2591
In this course, students learn design principles of combinational and sequential digital systems. Topics include number systems, Boolean algebra, Karnaugh maps, encoders, decoders, multiplexers, demultiplexers, adders, comparators, flip-flops, counters, registers, sequential circuits, Hardware Description Languages (HDLs), and circuit design.
List Course Outcomes (consistent for all sections) CO1 - Convert among decimal, binary, and hexadecimal number systems in order to design digital systems using numerical data.
CO2 - Define basic theorems of Boolean algebra in order to analyze digital systems.
CO3 - Simplify Boolean functions using algebraic manipulation and Karnaugh Maps in order to design digital systems.
CO4 - Design combinational circuits using basic gates in order to build systems using arithmetic circuits, encoders, decoders, multiplexers, and demultiplexers.
CO5 - Apply models of flip-flops and basic gates in order to design sequential circuits, such as counters, shift registers, and state machines.
CO6 - Write code using Hardware Description Languages (HDLs) in order to implement digital circuits.
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