Lectures in course EE-110: Logic systems (for MT)

Digital Systems Overview: Evolution and Integration

Explores the evolution of digital systems, from transistors to integrated circuits, emphasizing the impact of Moore's law and practical FPGA work.

Logic Systems: Basics and Operators

Covers the basics of logic systems, including digital versus analog circuits, logic operators, truth tables, and Boolean algebra.

Boolean Algebra: Properties and Theorems

Covers the properties and theorems of Boolean algebra in logic systems.

Optimizing Logic Functions

Covers the optimization of logic functions using Karnaugh diagrams and dealing with incomplete defined functions.

Karnaugh Maps: Grouping Rules and Optimization

Explores Karnaugh map representations, grouping rules, optimization, and TTL gate technology.

Logic Systems: TTL Gates and Analog Aspects

Explores TTL gates, analog aspects, and various logic gates in digital circuits.

CMOS Gates and Logic Systems

Covers the basics of CMOS gates and Logic Systems, highlighting the advantages of CMOS over TTL gates.

Elevator Logic Systems

Explores elevator logic systems, including behavior analysis, logic functions, SR-Latches, and Set-Reset Latches.

SR and D Latches: Logic Systems

Covers the implementation of SR and D latches and flip-flops.

Undetermined States in D-Flip-Flops

Explores undetermined states in D-flip-flops, multiplexers, tri-state gates, decoders, and complex binary decoders.

Priority Encoders: Example and Operation

Explains the operation of priority encoders and provides examples of 8-input priority encoders.

Logic Systems: Technology Overview

Provides an overview of the technology behind logic gates, covering TTL and CMOS families and addressing static and dynamic hazards, gated clocks, and switch debouncing.

Logic Systems: Finite State Machines

Explores Boolean algebra, optimization, sequential systems, and finite state machines design.

Finite State Machines: Medvedev vs. Moore vs. Mealy

Compares Medvedev, Moore, and Mealy FSM models and their structures.

FSM Design and Synthesis

Explains the design and synthesis of Finite State Machines in logic systems.

FSM Design and Synthesis

Explains the steps in FSM design, including transition and code table creation.

Logic Systems: Representations and Number Systems

Explores the representation of logic circuits and place-value notation for natural numbers.

Place-Valued Arithmetic: Addition and Subtraction

Explores place-valued arithmetic, covering addition, subtraction, and limitations of digital systems.

Integers Representation: Sign-and-Magnitude vs Two's Complement

Compares sign-and-magnitude with two's complement integer representations, emphasizing complexity differences and addressing overflow and underflow challenges.

Logic Systems: Arithmetic Operations

Covers classic pen-and-paper methods for arithmetic operations and binary representations of numbers.