Master the principles of logic design with the exceptional balance of theory and application found in Roth/Kinney/John's FUNDAMENTALS OF LOGIC DESIGN, ENHANCED, 7th Edition. This edition introduces you to today's latest advances. The authors have carefully developed a clear presentation that introduces the fundamental concepts of logic design without overwhelming you with the mathematics of switching theory. Twenty engaging, easy-to-follow study units present basic concepts, such as Boolean algebra, logic gate design, flip-flops and state machines. You learn to design counters, adders, sequence detectors and simple digital systems. After mastering the basics, you progress to modern design techniques using programmable logic devices as well as VHDL hardware description language.
1. Introduction: Number Systems and Conversion
2. Boolean Algebra
3. Boolean Algebra (Continued)
4. Applications of Boolean Algebra Minterm and Maxterm Expansions
5. Karnaugh Maps
6. Quine-McCluskey Method
7. Multi-Level Gate Circuits NAND and NOR Gates
8. Combinational Circuit Design and Simulation Using Gates
9. Multiplexers, Decoders, and Programmable Logic Devices
10. Introduction to VHDL
11. Latches and Flip-Flops
12. Registers and Counters
13. Analysis of Clocked Sequential Circuits
14. Derivation of State Graphs and Tables
15. Reduction of State Tables State Assignment
16. Sequential Circuit Design
17. VHDL for Sequential Logic
18. Circuits for Arithmetic Operations
19. State Machine Design with SM Charts
20. VHDL for Digital System Design
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Charles H. Roth, Jr.
Charles Roth is Professor Emeritus in Electrical and Computer Engineering at the University of Texas at Austin, where he taught Digital Design for more than four decades. In addition to this successful book, Dr. Roth has co-authored DIGITAL SYSTEMS DESIGN USING VHDL and DIGITAL SYSTEMS DESIGN USING VERILOG.
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Larry L Kinney
Larry L. Kinney is a Professor and Director of Undergraduate Studies at the University of Minnesota. He received his Ph.D. in Electrical Engineering from the University of Iowa. His research has focused on digital system and digital computer design, specifically concurrent error detection techniques, testing of logic and design, distributed computer systems, computer architectures, error detecting/correcting codes and applications of microprocessors.
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Eugene B. John
Eugene B. John is a Professor in Electrical and Computer Engineering at the University of Texas at Austin. His areas of interest include VLSI design, computer architecture, energy efficient computing, energy efficient hardware for machine learning and artificial intelligence and hardware security.
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NEW WEBASSIGN DIGITAL TEACHING TOOL PROVIDES COMPREHENSIVE RESOURCES FOR INTRODUCING LOGIC DESIGN. This flexible, fully customizable platform puts powerful tools in your hands. You can deploy assignments, instantly assess individual student and class performance and help students master the course concepts. WebAssign’s digital platform works with this edition's specific content. You can tailor your course with a wide range of assignment settings, add your own questions and content and access student and course analytics and communication tools.
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WebAssign is the complete teaching tool for Logic Design. This flexible and fully customizable platform puts powerful tools in your hands. Deploy assignments, instantly assess individual student and class performance, and help your students master the course concepts. With WebAssign’s powerful digital platform and Fundamentals of Logic Design's specific content, you can tailor your course with a wide range of assignment settings, add your own questions and content, and access student and course analytics and communication tools.
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EXCEPTIONAL BALANCE OF THEORY AND APPLICATION CLEARLY INTRODUCES CONCEPTS AND HOW THEY ARE APPLIED. Students gain a strong understanding of the key concepts while also examining how to apply these fundamentals to actual problems. These accomplished authors are recognized for their ability to present the basic theory of switching circuits, as well as provide clarity on how to apply it.
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SIMULATIONS AND LABORATORY EXERCISES PROVIDE HANDS-ON PRACTICE. Carefully crafted simulations and lab experiences work with specially designed LogicAid™ and SimuAid™ design and simulation software to provide your students with important opportunities to design logic circuits and then test their operations.
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BUILT-IN SELF STUDY GUIDES HELP PREPARE STUDENTS FOR THE WORK TO COME. The Study Guides at the beginning of each chapter contain reading assignments with corresponding study questions that ensure students absorb and comprehend the principles they have read.
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PORTIONS OF THIS EDITION'S PRESENTATION OF NEGATIVE NUMBERS CAN BE INCLUDED OR OMITTED, DEPENDING ON STUDENT NEEDS. The authors have skillfully organized this edition's representation of negative numbers to allow you to easily omit discussions on one's complement and sign magnitude, if desired.
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COMPLETE COVERAGE ADDRESSES GATED SR LATCHES. This edition's presentation of gated SR latches emphasizes input change restrictions and how this relates to hazards. The authors have also integrated alternative implementations of gated latches, such as the Earle latch.
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THIS EDITION COVERS ALTERNATIVE IMPLEMENTATIONS OF MULTIPLEXERS. The authors introduce alternative implementations of multiplexers using different types of gates, as well as how to use smaller multiplexers to implement larger ones.
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THE BOOK INTRODUCES NAND GATES AND NOR GATES EARLY SO STUDENTS BECOME FAMILIAR IN WORKING WITH THEM. Students focus on these digital logic gates as early as Chapter 7.
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DISCUSSION CLEARLY DISTINGUISHES BETWEEN SWITCHING ALGEBRA AND BOOLEAN ALGEBRA. After reviewing this coverage, students will understand the distinction between the two and how to use these tools most effectively to represent the behavior of gate networks.
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CD ACCOMPANYING THE BOOK PROVIDES USEFUL SOFTWARE FOR COMPLETING LABS. Your students can use several software programs provided with this edition to complete valuable hands-on lab exercises. Digital tools include LogicAid™, SimUaid™ simulator, and DirectVHDL™ software.
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OPTIONAL VERILOG SUPPLEMENT PROVIDES FLEXIBILITY IN YOUR PRESENTATION. You have the option of using this valuable online supplement to introduce Verilog hardware descriptive language to your students.
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Balances the basic theory of switching circuits and how to apply it providing students with a clear presentation of the key concepts and how to apply them to problems.
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Contains built-in Self Study Guide at the beginning of each chapter containing reading assignments and study questions which prepare students to make the most of their reading.
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Includes simulation or laboratory exercises along with specially designed LogicAid and SimuAid design and simulation software that provides opportunities to design a logic circuit and then test its operation.
Companion Website for Roth/Kinney/John's Fundamentals of Logic Design, Enhanced, 7th
9781337620383
Instructor's Solutions Manual for Roth/Kinney/John's Fundamentals of Logic Design, Enhanced, 7th
9781337620369
Cengage eBook: Fundamentals of Logic Design, Enhanced Edition 12 Months
9788000029955