Description

Introduction to digital design, combinational digital design and realization using: decoders, encoders, buffer, multiplexers, comparators, adders, and ALU, sequential design and realization using: latches, flip-flops, counters, and shift registers, memories, CPLD, and FPGA. Synchronous analysis and design using algorithmic state machines ASM, Digital design practice, CAD using FPGA and CPLD.

Program

Bachelor Degree in Computer Engineering

Objectives

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Textbook

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Course Content

content serial Description
1Week Number 1 : Introduction to digital design.
2Week Number 2 : Quine-McCluskey Simplification Algorithm.
3Week Number 3 : Algorithmic state machine (ASM) chart.
4Week Number 4 : Timing Analysis of Digital Designs.
5Week Number 5 : Physical Layout of PLA, PLD, CPLD, GAL, and FPGA.
6Week Number 6 : Combinational logic design practices: VHDL.
7Week Number 7 : 7th Week Exam + Sequential logic design practices.
8Week Number 8 : Sequential logic design practices.
9Week Number 9 : Interfacing with FPGA/CPLD boards.
10Week Number 10 : Interfacing with FPGA/CPLD boards.
11Week Number 11 : Hierarchical and Modular Design.
12Week Number 12 : 12th Week Exam + Hierarchical and Modular Design.
13Week Number : Project Ideas.
14Week Number 14 : Project Discussions.
15Week Number 15 : Revision.
16Week Number 16 : Final Exam.

Markets and Career

  • Generation, transmission, distribution and utilization of electrical power for public and private sectors to secure both continuous and emergency demands.
  • Electrical power feeding for civil and military marine and aviation utilities.
  • Electrical works in construction engineering.

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