Introduction to Logic Design
2001
|
International student edition
McGraw-Hill Publishing Co.
978-0-07-112399-0 (ISBN)
McGraw-Hill Publishing Co.
978-0-07-112399-0 (ISBN)
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This title is intended for a first course in logic design, taken by computer science, computer engineering, and electrical engineering students. It provides a clear presentation of fundementals with a collection of examples, solved problems and exercises.
This work is intended for a first course in logic design, taken by computer science, computer engineering and electrical engineering students. Its special strengths are a clear presentation of fundamentals with an exceptional collection of examples, solved problems and exercises. The text integrates laboratory experiences, both hardware and computer simulation, while not making them mandatory for following the main flow of the chapters. Design is emphasized throughout the text. Switching algebra is developed as a tool for analyzing and implementing digital systems. The book contains an excellent presentation of minimization of combinational circuits, including multiple output ones, using the Karnaugh map and iterated consensus. There are a number of examples of the design of larger systems, both combinational and sequential, using medium scale integrated circuits and programmable logic devices. This book should provide students with the sort of grounding that will give them a solid foundation for further study, whether it be in a computer science, computer engineering, or electrical engineering programme.
The text integrates practice circuits with theory by presenting two types of laboratory experiments. Traditional hands-on hardware experiments as well as simulation laboratory exercises using popular software packages are tied closely to the text material to allow students to implement the concepts they are learning. An algorithmic minimization approach using iterated consensus helps distinguish the text and design using standard medium scale integrated circuit packages and programmable logic devices is emphasized.
This work is intended for a first course in logic design, taken by computer science, computer engineering and electrical engineering students. Its special strengths are a clear presentation of fundamentals with an exceptional collection of examples, solved problems and exercises. The text integrates laboratory experiences, both hardware and computer simulation, while not making them mandatory for following the main flow of the chapters. Design is emphasized throughout the text. Switching algebra is developed as a tool for analyzing and implementing digital systems. The book contains an excellent presentation of minimization of combinational circuits, including multiple output ones, using the Karnaugh map and iterated consensus. There are a number of examples of the design of larger systems, both combinational and sequential, using medium scale integrated circuits and programmable logic devices. This book should provide students with the sort of grounding that will give them a solid foundation for further study, whether it be in a computer science, computer engineering, or electrical engineering programme.
The text integrates practice circuits with theory by presenting two types of laboratory experiments. Traditional hands-on hardware experiments as well as simulation laboratory exercises using popular software packages are tied closely to the text material to allow students to implement the concepts they are learning. An algorithmic minimization approach using iterated consensus helps distinguish the text and design using standard medium scale integrated circuit packages and programmable logic devices is emphasized.
1. Introduction. 2. Switching Algebra and Logic Circuits. 3. More Algorithmic Simplification Techniques. 4. Solving Larger Problems. 5. Sequential Systems. 6. Solving Larger Sequential Problems. 7. Simplification of Sequential Systems.
Zusatzinfo | illustrations |
---|---|
Verlagsort | London |
Sprache | englisch |
Gewicht | 1100 g |
Themenwelt | Mathematik / Informatik ► Informatik ► Theorie / Studium |
Mathematik / Informatik ► Mathematik ► Algebra | |
Mathematik / Informatik ► Mathematik ► Logik / Mengenlehre | |
Technik ► Elektrotechnik / Energietechnik | |
ISBN-10 | 0-07-112399-7 / 0071123997 |
ISBN-13 | 978-0-07-112399-0 / 9780071123990 |
Zustand | Neuware |
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