MP4 | Video: h264, 1280×720 | Audio: AAC, 44.1 KHz
Language: English | Size: 1.51 GB | Duration: 6h 33m
Digital Logic Operations and Design
What you’ll learn
Apply techniques to convert between the decimal, ASCII and binary sets as well as perform binary arithmetic.
Describe combinational systems algebraically.
Apply logic arithmetic techniques to the reduction of combinational systems.
Design combinational logic systems to meet specified requirements.
Design introductory sequential systems through the application of system reduction techniques and the use of sequential system design tools.
Requirements
Basic Electrical circuits concepts
Basics Calculus II
Mathematics
Electrical Engineering basics
Basic knowledge of Algebra
Description
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A. Course Description:
This course introduces the concepts of digital logic operations and design. The course teaches fundamentals of digital logic design through the use of a large number of design problems. Topics include: Boolean algebra, theory of logic functions; mapping techniques and function minimization; logic equivalent circuits and gate transformations; base conversion number notations and arithmetic; binary addition/subtraction, decoder, encoder, comparator, multiplexer and de-multiplexer circuits in combinational systems.
B. Course Objectives:
To introduce the binary number system.
To teach the fundamentals of digital logic design.
To teach logic equivalent circuits and conversion.
To introduce the design of popular fundamental digital circuits.
C. Course Learning Outcomes:
CO-1:
Apply techniques to convert between the decimal, ASCII and binary sets as well as perform binary arithmetic
CO-2:
Describe combinational systems algebraically.
CO-3:
Apply logic arithmetic techniques to the reduction of combinational systems.
CO-4:
Design combinational logic systems to meet specified requirements.
CO-5:
Design introductory sequential systems through the application of system reduction techniques and the use of sequential system design tools.
D. Topics Covered:
1. Arithmetic Functions.
2. Boolean algebra, and function minimization.
3. Combinational Logic circuits.
4. Combinational Logic design.
5. Digital systems.
6. Information representation.
7. Introductory sequential systems including counters .
8. Sequential circuits: design, implementation and minimization.
E. Course Material:
Book: Introduction to Logic Design – Alan B. Marcovitz – 3rd Ed.
F. Course Logistics Requirements:
No requirements added
Who this course is for:
Engineering Students
Electrical Engineering Undergraduate students
Graduate students taking digital courses
Computer Science or Engineers
Electrical Engineers
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