This course gives students a basic understanding of how computers work by teaching the essentials of logic design and hardware. It covers topics like logic gates (AND, OR, NOT), truth tables, and Boolean algebra. Students will learn to build and simplify logic circuits using gates like NAND and NOR. The course also explores how to design and optimize circuits, including combinational circuits like decoders, multiplexers, and arithmetic units, as well as sequential circuits such as flip-flops, registers, counters, and memory units. Additionally, students will use CAD tools like Verilog to design simple circuits and even create a basic microprocessor, along with an introduction to assembly language programming.
The Digital Logic Design Laboratory complements the theory course by providing students with practical, hands-on experience to reinforce their understanding of key concepts. Aligned with the weekly lecture plan, the lab takes students through a step-by-step journey, from Boolean algebra fundamentals to advanced applications like counters.
Students work individually and in groups on digital trainer kits equipped with breadboards, switches, LED panels, clocks, and power supplies. These tools allow them to implement and test digital circuits in real-time.
By the end of the lab, students will gain a solid understanding of gate-level integration of Boolean systems, the configuration and use of MSI ICs, and core digital system design principles. To enhance their learning, students are encouraged to tackle small-scale real-worRachna College of Engineering and Technologyld problems, translating them into the digital domain and developing practical solutions.
Spring 2025: Digital Logic Design
Fall 2024: Programming Fundamentals in C++
Spring 2024: Digital Logic Design
Fall 2024: Programming Fundamentals
Spring 2023: Computer Networks, Digital Logic Design
Fall 2023: Comp Org and Assembly Language, Data Science
Spring 2022: Design and Analysis of Algorithms, Digital Logic Design
Fall 2022: Comp Org and Assembly Language, Internet of Things
Spring 2021: Computer Networks, Digital Logic Design
Fall 2021: Comp Org and Assembly Language, Information Security
Spring 2020: Computer Networks, Analog and Digital Communications
Fall 2020: Comp Org and Assembly Language, Computer Architecture
Spring 2019: Analog and Digital Communications
Fall 2019: Electromagnetics, Control Systems
Spring 2018: Analog and Digital Communications, Circuit Analysis
Fall 2018: Electromagnetics, Control Systems
Spring 2017: Analog and Digital Communications
Fall 2017: Control Systems, Electromagnetic Theory
Fall 2016: Electromagnetics Theory, Engineering Economy
Spring 2015: Electrical Technology
Fall 2014: Applied Electricity (UET Chemical Engineering)
Spring 2014: Object Oriented Programming, Microprocessor Systems
Spring 2013: Data Structures and Algorithms
Fall 2013: Applied Thermodynamics
Fall 2012: Electromagnetics Theory