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Lecture
Finite State Machines: Design and Analysis Techniques
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Related lectures (27)
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Fundamentals of Digital Systems: Sequential Logic and Memory Elements
Introduces the fundamentals of digital systems, focusing on sequential logic and memory elements like latches and flip-flops.
Digital Logic Circuits: Memory and Decoder Fundamentals
Provides an overview of digital logic circuits, focusing on memory systems and binary decoders, including their operation and access protocols.
Timing Analysis: Synchronous Circuit Design
Covers timing analysis of synchronous circuits, focusing on flip-flops, timing constraints, and metastability issues.
Full Adder: Binary Addition Logic
Explains the full adder's role in binary addition and its design using transistors.
Sequential Logic Designs
Introduces clocked systems, sequential circuits, bistable-state devices, metastable states, and D-type flip-flops.
Digital Logic Circuits: Memory Fundamentals
Discusses digital logic circuits, focusing on memory systems and their implementation in Verilog.
Logic Gates and Hazard Elimination
Explores logic gates, hazard elimination, ALUs, counters, and shift registers in semiconductor technology.
Digital Systems: Registers and Counters Overview
Provides an overview of registers and counters in digital systems design.
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: Multiplexers and Flip-Flops
Explains SR latch circuits, D-latches, D-flip-flops, clock signals, and multiplexers in logic systems.
