Logic Gates and Hazard Elimination

In course

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Description

This lecture covers the implementation of logic gates in semiconductor materials, focusing on TTL and CMOS logic families. It discusses integrated circuits, static and dynamic hazards, gated clocks, real D flip-flops, metastability, critical paths, and switch debouncing. The presentation also delves into static-1 and static-0 hazards, their elimination using Karnaugh maps, and the concept of metastability. Additionally, it explores the theory of zero-delay models in complex logic circuits, addressing dynamic hazards and the behavior of D flip-flops. The lecture concludes with insights into ALUs, counters, shift registers, ring counters, Johnson counters, and linear feedback shift registers.

Instructor

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Official source

https://mediaspace.epfl.ch/media/0_bfz63u5m

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Ontological neighbourhood

Computer engineering

Hardware engineering: Microprocessors

Electrical engineering

Electronic engineering: Digital electronics

Logic

Classical logic: First-order logic

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