CS8351 Digital Principles and System Design Anna University Syllabus Regulation 17 (CSE Sem-3)

CS8351 Digital Principles and System Design Anna University Syllabus Regulation 17 (CSE Sem-3)

CS8351                    DIGITAL PRINCIPLES AND SYSTEM DESIGN                            L T P C     4 0 0 4 


OBJECTIVES:
• To design digital circuits using simplified Boolean functions
• To analyze and design combinational circuits
• To analyze and design synchronous and asynchronous sequential circuits
• To understand Programmable Logic Devices
• To write HDL code for combinational and sequential circuits

UNIT I            BOOLEAN ALGEBRA AND LOGIC GATES                                                     12 Number Systems - Arithmetic Operations - Binary Codes- Boolean Algebra and Logic Gates - Theorems and Properties of Boolean Algebra -  Boolean Functions - Canonical and Standard Forms - Simplification of Boolean Functions using Karnaugh Map - Logic Gates – NAND and NOR Implementations.

UNIT II  COMBINATIONAL LOGIC                                                                                            12  Combinational Circuits – Analysis and Design Procedures -  Binary Adder-Subtractor - Decimal Adder -  Binary Multiplier - Magnitude Comparator - Decoders – Encoders – Multiplexers - Introduction to HDL – HDL Models of Combinational circuits.

UNIT III          SYNCHRONOUS SEQUENTIAL LOGIC                                                           12 Sequential Circuits - Storage Elements: Latches , Flip-Flops - Analysis of Clocked Sequential Circuits - State Reduction and Assignment - Design Procedure - Registers and Counters - HDL Models of Sequential Circuits.

UNIT IV         ASYNCHRONOUS SEQUENTIAL LOGIC                                                          12 Analysis and Design of Asynchronous Sequential Circuits – Reduction of State and Flow Tables – Race-free State Assignment – Hazards.

UNIT V          MEMORY AND PROGRAMMABLE LOGIC                                                      12 RAM – Memory Decoding – Error Detection and Correction - ROM - Programmable Logic Array – Programmable Array Logic – Sequential Programmable Devices.

TOTAL : 60  PERIODS 
OUTCOMES: On Completion of the course, the students should be able to:  Simplify Boolean functions using KMap  Design and Analyze Combinational and Sequential Circuits  Implement designs using Programmable Logic Devices  Write HDL code for combinational and Sequential Circuits


TEXT BOOK:
1.  M. Morris R. Mano, Michael D. Ciletti, ―Digital Design: With an Introduction to the Verilog HDL, VHDL, and SystemVerilog‖, 6th Edition, Pearson Education, 2017.

REFERENCES: 
1.  G. K. Kharate, Digital Electronics, Oxford University Press, 2010
2.  John F. Wakerly, Digital Design Principles and Practices, Fifth Edition, Pearson Education, 2017.  3.  Charles H. Roth Jr, Larry L. Kinney, Fundamentals of Logic Design, Sixth Edition,  CENGAGE Learning, 2013
4.  Donald D. Givone, Digital Principles and Design‖, Tata Mc Graw Hill, 2003.

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Anna University Syllabus Regulation 17 (CSE Sem-3) Digital Principles and System Design

Anna University Syllabus Regulation 17 (CSE Sem-3) Discrete Mathematics


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