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Lecture
Logic Systems: Multiplexers and Flip-Flops
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Related lectures (31)
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Boolean Algebra: Properties and Optimization
Explores Boolean algebra properties and optimization techniques using Karnaugh diagrams and De Morgan's theorems.
Tri-State Inverter: Master-Slave Flip-Flop Applications
Covers the tri-state inverter and its role in master-slave flip-flops in digital circuits.
FSM Design and Synthesis
Explains the design and synthesis of Finite State Machines in logic systems.
Timing Analysis: Synchronous Circuit Design
Covers timing analysis of synchronous circuits, focusing on flip-flops, timing constraints, and metastability issues.
Logic Synthesis: Designing Efficient Digital Circuits
Discusses logic synthesis techniques for designing efficient digital circuits using minterms, maxterms, and new gates like XOR and XNOR.
Finite State Machines: Basics and Design
Introduces finite state machines, covering basics, design, and practical applications like decoders and encoders.
Optimizing Logic Functions
Covers the optimization of logic functions using Karnaugh diagrams and dealing with incomplete defined functions.
Full Adder: Binary Addition Logic
Explains the full adder's role in binary addition and its design using transistors.
Dynamic Logic: Basics and Implementations
Explores dynamic logic fundamentals, hazards, charge-sharing issues, clocking schemes, and various implementations to enhance performance.
Digital Logic Circuits: Memory Elements and Sequential Logic
Introduces sequential logic circuits and memory elements, focusing on their role in digital systems and practical applications.
