數位邏輯設計

· NEW! A parallel, but integrated, treatment of Verilog and VHDL, the main hardware description languages used in industry today makes the core text available to a wider audience of students and instructor backgrounds.
· NEW! Examples are presented in both Verilog and VHDL.
· NEW! Practice Exercises, which provide feedback to the student, are stated generically, but answers are given in both languages.
· NEW! An introduction to SystemVerilog has been added to the text.
· REVISED! Problems at the end of the chapters have been revised, and are stated in terms of a generic HDL, enabling the instructor to choose the language being used by the students. Problem solutions are presented as fully worked versions in both languages.

· The focus of the text reflects the content of a foundation course in digital design and the mainstream technology of today's digital systems: CMOS circuits. The intended audience is broad, embracing students of computer science, computer engineering, and electrical engineering. The key elements include Boolean logic, logic gates used by designers, synchronous finite state machines, and datapath controller design—all from a perspective of designing digital systems.
· Hardware description languages (HDLs), which today’s designers rely heavily on, are given significant attention, and the text presents a clear development of a design methodology using Verilog and VHDL.
· A multimodal approach to learning follows the VARK characterization of learning modalities, identifying the four major modes by which humans learn: (V) visual, (A) aural, (R) reading, and (K) kinesthetic.
· The sequence of topics is designed to accommodate courses that adhere to traditional, manual-based treatments of digital design, courses that treat design using an HDL, and courses that are in transition between or blend the two approaches.
· Classroom-ready resources are available on the Companion Website: http://www.pearsonhighered.com/engineering-resources
· Web Search Topics at the end of each chapter point students to additional subject matter available on the web.

M. Morris Mano is an Emeritus Professor of Computer Engineering at the California State University, Los Angeles. His notable works include the Mano Machine, i.e. a theoretical computer that contains a central processing unit, random access memory, and an input-output bus. M. Morris Mano has authored numerous books in the area of digital circuits that are known for teaching the basic concepts of digital logic circuits in a clear, accessible manner. His books for the introductory digital design course, Logic and Computer Design Fundamentals and Digital Design, continue to be two of the most widely used texts around the world.

Michael Ciletti is an Emeritus Professor of Electrical and Computer Engineering at the University of Colorado, Colorado Springs. An early advocate of including HDL-based design methodology in the curriculum, he pioneered and developed the offering of several courses using Verilog, VHDL, FPGAs and standard cell based hardware implementations for design, testing, and synthesis of VLSI devices. His consulting work has ranged from processor design to providing expert witness testimony in cases involving HDLs. He has developed and presented courses for industry in The United States, Asia, and Europe. His widely-adopted textbooks have promoted the use of the now-standard Verilog HDL and encouraged adoption of HDL-based design practice in logic design and computer science curricula. Ciletti resides in Colorado Springs, CO, where he pursues a strong interest in landscape photography.

1 Digital Systems and Binary Numbers
2 Boolean Algebra and Logic Gates
3 Gate-Level Minimization
4 Combinational Logic
5 Synchronous Sequential Logic
6 Registers and Counters
7 Memory and Programmable Logic
8 Design at the Register Transfer Level
9 Laboratory Experiments with Standard ICs and FPGAs
10 Standard Graphic Symbols