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Updated in [September 27th, 2023]
What does this course tell?
(Please note that the following overview content is from the original platform)In this course on digital electronics and logic design with VHDL students will learn the digital electronics concepts from scratch and also learn VHDL programming concepts to design digital circuits by writing the programs in textual form mapped into digital with this front end language of VHDL In any programming language we need a strong foundation of the fundamentals particularly the usage of syntax Once you are strong enough in using the syntax properly students will feel comfortable and have some ease to writing programs Nowadays everywhere is full of digital circuits embedded in systems; without digital we cannot imagine our life If you are really interested in digital electronics and digital circuit behavior and how to design the digital circuits this course is absolutely for you The course is designed in the below mannerCourse structure:Section1: In this section a part of digital electronics; you may learn about what is a system and the digital systems as well as the basic understanding of number systems after that the conversions of number systems will be clearly discussed like decimal to any radix and any radix to decimal Next data representations like signed magnitude signed 1s and signed 2s complement techniques are discussed here Binary arithmetic like addition subtraction multiplication and division along with different binary codes are clearly explainedSection 2: In this section a part of digital electronics;Boolean theorems and their functions as well as the sum of product forms (SOP) and product of sums (POS) forms and also you may learn the conversion of SOP into SSOP &CSOP as well as POS into SPOS&CPOS forms etc Of course duals of a boolean function and de morgans laws also explained Next explained the basic logic gates and their truth tables and Equivalence of basic gates or alternative gates for basic gates and different logic circuit implements with gates discussedMinimization of boolean logicexpressions Grey to Binary Vice versa Conversions Overview of Karnaugh map variable k-map 2 variable k-map 3 variable k-map 4 variable k-map discussedSection 3 In this section a part of digital electronics;Deals with the implementation of combinational logic circuits like the design analysis procedure for design the combinational logic circuit half adder a full adder half subtractor full subtractor and parallel binary adder Using binary adders implementation of 1sc and 2s complement combinational circuits designedcircuits Adder-subtractor with parallel binary adders by using control input explained The next is Decoder introduction is 2 to 4 decoder 3 to 8 decoder and 3 to 8 decoder all types of multiplexers and demultiplexers of combinational logic circuit implementation is showing elaboratelySection4:what is sequential circuit and clock as well as the triggering methods and discussed about the latch ie SR latchD latchusing nand nor gates as well as the flip flops for SRJKD T aslo disccused heredSection5: In this section a part of digital electronics: Deals with VHDL programming basics The first part is dealing with the inside of the main code while the second one deals might be the library In this course code structure different data types operators concurrent and sequential codes also covered fundamentally associated with the VHDL language This course also focuses on teaching students about the full details of digital circuits and how the syntax of VHDL is interpreted and how it can be used to design digital circuits and the main distinguishing feature is that it teaches in detail all indispensable and synthesis in a concise format of features in VHDLThis course is well suited for: Who wants to learn digital electronics and circuits concepts Engineering graduates( students in graduation level) to get a bachelors degree Helpful to do some projects with VHDL hobbyistsHappy learning By SkillGems EducationPUDI V V S NARAYANA
We considered the value of this course from many aspects, and finally summarized it for you from two aspects: skills and knowledge, and the people who benefit from it:
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What skills and knowledge will you acquire during this course?
During this course on Digital Electronics & Logic Design with VHDL, students will acquire the following skills and knowledge:
1. Understanding of digital electronics concepts: Students will learn the basics of digital electronics, including the understanding of systems and digital systems, number systems, data representations, binary arithmetic, and binary codes.
2. VHDL programming concepts: Students will learn VHDL programming language, including syntax, data types, operators, concurrent and sequential codes. They will also understand how to write programs in VHDL to design digital circuits.
3. Designing digital circuits: Students will learn how to design digital circuits using VHDL. They will understand the implementation of combinational logic circuits, such as half adder, full adder, half subtractor, full subtractor, and parallel binary adder. They will also learn about decoders, multiplexers, demultiplexers, latch, and flip flops.
4. Minimization of boolean logic expressions: Students will learn techniques for minimizing boolean logic expressions, including the use of Karnaugh maps.
5. Understanding sequential circuits: Students will learn about sequential circuits, including clock and triggering methods. They will also understand the implementation of latch and flip flops using NAND and NOR gates.
6. Application of VHDL in digital circuit design: Students will understand how to apply VHDL in designing digital circuits. They will learn about the structure of VHDL code, libraries, and the interpretation of VHDL syntax. They will also learn about the synthesis features of VHDL.
Who will benefit from this course?
This course on Digital Electronics & Logic Design with VHDL will benefit the following individuals:
1. Engineering students: This course is well-suited for engineering students who are studying digital electronics and circuits concepts as part of their curriculum. It provides a strong foundation in digital electronics and VHDL programming, which are essential skills for their future careers in fields such as electrical engineering, computer engineering, and computer science.
2. Graduates seeking a bachelor's degree: Students who are pursuing a bachelor's degree in engineering or a related field can benefit from this course. It covers the fundamental concepts of digital electronics and logic design, which are often included in the curriculum of engineering programs. It can help them gain a deeper understanding of these concepts and improve their academic performance.
3. Hobbyists interested in digital electronics: Individuals who have a personal interest in digital electronics and want to learn how to design digital circuits using VHDL will find this course valuable. It provides a comprehensive introduction to digital electronics concepts and VHDL programming, allowing hobbyists to enhance their knowledge and skills in this area.
4. Professionals in related fields: Professionals working in fields such as electrical engineering, computer engineering, or embedded systems development can benefit from this course. It can serve as a refresher or provide additional knowledge in digital electronics and VHDL programming, which are essential for designing and implementing digital circuits in various applications.
Course Syllabus
Review of Number systems
Boolean Algebra
Implementation of Combinational logic circuits
Sequential logic circuits
Introduction to VHDL