JNTUA B.TECH R 20 2-3 Syllabus For Digital logic design PDF 2022

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You will be able to find information about Digital logic design along with its Course Objectives and Course outcomes and also a list of textbook and reference books in this blog.You will get to learn a lot of new stuff and resolve a lot of questions you may have regarding Digital logic design after reading this blog. Digital logic design has 5 units altogether and you will be able to find notes for every unit on the CynoHub app. Digital logic design can be learnt easily as long as you have a well planned study schedule and practice all the previous question papers, which are also available on the CynoHub app.

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Digital logic design Unit One

Number Systems, Boolean algebra and Logic Gates

Number systems -binary numbers, octal, hexadecimal, other binary codes; complements, signed binary numbers, digital logic operations and gates, basic theorems and properties of Boolean algebra, Boolean functions, canonical and standard forms, complements of Boolean functions, two-level NAND andNOR Implementation of Boolean functions.

Digital logic design Unit Two

Minimization of Boolean functions and Combinational Logic Circuits

The Karnaugh map method (up to five variables), product of sums simplifications, don’t care conditions, Tabular method, Introduction,Combinational circuits, design procedure, adders, subtractors, 4-bit binary adder/ subtractor circuit, BCD adder, carry look-a-head adder, binary multiplier, magnitude comparator, decoders and encoders, multiplexers, demultiplexers,

Digital logic design Unit Three

Sequential Logic Circuits

Basic architectural distinction between combinational and sequential circuits, Design procedure, latches, flip-flops, truth tables and excitation tables, timing and triggering consideration, conversion of flip-flops, design of counters, ripple counters, synchronous counters, ring counter, Johnson counter, registers, shift registers, universal shift register

Digital logic design Unit Four

Finite State Machines and Programmable Logic Devices

Types of FSM, capabilities and limitations of FSM, state assignment, realization of FSM using flip-flops, Mealy to Moore conversion and vice-versa, reduction of state tables using partition technique, Design of sequence detector.

Digital logic design Unit Five

Hardware Description Language

Types of PLD’s: PROM, PAL, PLA, basic structure of CPLD and FPGA, advantages of FPGAs, Design of sequential circuits using ROMs, PLAs, CPLDs and FPGAs, Introduction to Verilog -structural Specification of logic circuits, behavioural specification of logic circuits, hierarchical Verilog Code, Verilog for combinational circuits -conditional operator, if-else statement, case statement, for loop; using storage elements with CAD tools-using Verilog constructs for storage elements, flip-flop with clear capability, using Verilog constructs for registers and counters

Digital logic design Course Objectives

To familiarize with the concepts of different number systems and Boolean algebra
.To introduce the design techniques of combinational, sequential logic circuits
.To model combinational and sequential circuits using HDLs.

Digital logic design Course Outcomes

CO1: Understand the properties of Boolean algebra, other logic operations, and minimization of Boolean functions using Karnaugh map.CO2: Make use of the concepts to solve the problems related to the logic circuits.CO3: Analyze the combinational and sequential logic circuits.CO4: Develop digital circuits using HDL, and Compare various Programmable logic devicesCO5: Design various logic circuits using Boolean algebra, combinational and sequential logic circuits

Digital logic design Text Books

1.M. Morris Mano, “Digital Design”, 3rd Edition, PHI. (Unit I to IV)2.Stephen Brown and ZvonkoVranesic, “Fundamentals of Digital Logic withVerilog Design”, 3rd Edition, McGraw-Hill (Unit V)

Digital logic design Reference Books

1.Charles H. Roth, Jr, “Fundamentals of Logic Design”, 4th Edition, Jaico Publishers.2.ZviKohavi and Niraj K.Jha, “Switching and Finite Automata Theory, 3rd Edition, Cambridge University Press, 2010.3.Samir Palnitkar, “Verilog HDL: A Guide to Digital Design and Synthesis”, 2ndEdition, Prentice Hall PTR.4.D.P. Leach, A.P. Malvino, “Digital Principles and Applications”, TMH, 7th Edition.