ENGR2406 — Introduction to Digital Systems (Lecture and Lab)

Introduction to theory and design of digital logic, circuits, and systems. Number systems, operations and codes; logic gates; Boolean Algebra and logic simplification; Karnaugh maps; combinational logic; functions of combinational Logic; flip-flops and related devices; counters; shift registers; sequential logic; memory and storage. Basic laboratory experiments supporting theoretical principles presented; involving design, construction, and analysis of combinational and sequential digital circuits and systems, including logic gates, adders, multiplexers, encoders, decoders, arithmetic logic units, latches, flip-flops, registers, and counters; preparation of laboratory reports. Utilize binary and hexadecimal numbers. Solve problems involving digital codes, operations, and number systems. Define, describe, and analyze fundamentals of Boolean algebra and digital logic gates. Describe, analyze, design, and fabricate combinational logic circuits Describe, analyze, design, and fabricate sequential logic circuits. Describe and explain the fundamentals of memory operations. Apply computer mathematical and/or simulation tools to solve digital systems problems Prepare laboratory reports that clearly communicate experimental information in a logical and scientific manner. Conduct basic laboratory experiments involving design and construction of digital circuits and systems. Relate physical observations and measurements involving digital circuits and systems to theoretical principles. Ev

Prerequisites: MATH1314

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