Synopses & Reviews
This carefully developed piece was widely praised by reviewers for both its great clarity and its rigor. The book balances theory and practice in depth without getting bogged down in excessive technical or mathematical language and has abundant coverage of current topics of interest, such as programmable devices, computer-aided design, and testability. An unusually large number of illustrations, examples, and problems help the reader gain a solid sense of how theory underlies practice.
FEATURES:
- the presentation focuses on learning; it is in-depth and rigorous without getting bogged down in detail.
- most chapters are organized in a consistent fashion that moves from theory to real-world practice:
- the theoretical basis is carefully presented and explained with a minimum of formalism.
- the theory is then applied to simple circuit examples.
- the authors then move on to examples involving large circuits and modular hierarchical design and industry standard functions.
- blends a very large number of worked examples into the book to build strong, systematic problem solving behaviors and design methodologies.
- Provides a comprehensive, carefully integrated coverage of computer-aided design principles and practices throughout the bookpractical issues discussed in the chapter lead to discussion of CAD techniques.
- the approach of including both industry-standard functions and strong CAD coverage supports either a chip-based or a CAD modeling-based approach.
- two in-depth chapters on programmable devices introduce the latest technologies but also emphasizes principles in a manner that prepares students for future advances in the field.
Synopsis
Four highly respected scholars and authors have blended their talents to craft a book that presents the reader with a clear, comprehensive, and state-of-the-art view of digital design theory and practice.
Table of Contents
0. Introduction.
1. Number Systems and Codes.
2. Algebraic Methods for Analysis and Synthesis of Logic Circuits.
3. Simplification of Switching Functions.
4. Modular Combinational Logic.
5. Combinational Circuit Design with Programmable Logic Devices.
6. Introduction to Sequential Devices.
7. Modular Sequential Logic.
8. Analysis and Synthesis of Synchronous Sequential Circuits.
9. Simplification of Sequential Circuits.
10. Asychronous Sequential Circuits.
11. Sequential Circuits with Programmable Logic Devices.
12. Logic Circuit Testing and Testable Design.
13. Design Examples.