Its thorough explanation of theory, coupled with examples and exercises, enables both students and practitioners to master and implement modern digital design techniques with confidence. The omnipresence of electronic devices in our everyday lives has been accompanied by the downscaling of chip feature sizes and the ever increasing complexity of digital circuits. This book is devoted to the analysis and design of digital circuits, where the signal can assume only two possible logic levels.
It deals with the basic principles and concepts of digital electronics. It addresses all aspects of combinational logic and provides a detailed understanding of logic gates that are the basic components in the implementation of circuits used to perform functions and operations of Boolean algebra. Combinational logic circuits are characterized by outputs that depend only on the actual input values. Efficient techniques to derive logic equations are proposed together with methods of analysis and synthesis of combinational logic circuits.
Each chapter is well structured and is supplemented by a selection of solved exercises covering logic design practices. This type of productivity relies on the principles and practices of computer aided design CAD. The authors begin by discussing conventional and unconventional number systems, binary coding theories, and arithmetic as well as logic functions and Boolean algebra. Building upon classic theories of digital systems, the book illustrates the importance of logic minimization using the Karnaugh map technique.
It continues by discussing implementation options and examining the pros and cons of each method in addition to an assessment of tradeoffs that often accompany design practices. This volume will be of practical use to digital logic designers, staff and senior communications scientists, and all those interested in digital design. A synergistic approach to signal integrity for high-speeddigital design This book is designed to provide contemporary readers with anunderstanding of the emerging high-speed signal integrity issuesthat are creating roadblocks in digital design.
Written by theforemost experts on the subject, it leverages concepts andtechniques from non-related fields such as applied physics andmicrowave engineering and applies them to high-speed digitaldesign—creating the optimal combination between theory andpractical applications.
Advanced Signal Integrity for High-Speed Digital Designs issuitable as a textbook for graduate-level courses on signalintegrity, for programs taught in industry for professionalengineers, and as a reference for the high-speed digitaldesigner.
High Speed Digital Design discusses the major factors to consider in designing a high speed digital system and how design concepts affect the functionality of the system as a whole. It will help you understand why signals act so differently on a high speed digital system, identify the various problems that may occur in the design, and research solutions to minimize their impact and address their root causes. The authors offer a strong foundation that will help you get high speed digital system designs right the first time.
Taking a systems design approach, High Speed Digital Design offers a progression from fundamental to advanced concepts, starting with transmission line theory, covering core concepts as well as recent developments.
It then covers the challenges of signal and power integrity, offers guidelines for channel modeling, and optimizing link circuits. Tying together concepts presented throughout the book, the authors present Intel processors and chipsets as real-world design examples. Provides knowledge and guidance in the design of high speed digital circuits Explores the latest developments in system design Covers everything that encompasses a successful printed circuit board PCB product Offers insight from Intel insiders about real-world high speed digital design.
A cutting-edge guide to the theory and practice of high-speed digital system design An understanding of high-speed interconnect phenomena is essential for digital designers who must deal with the challenges posed by the ever-increasing operating speeds of today's microprocessors. This book provides a much-needed, practical guide to the state of the art of modern digital system design, combining easily accessible explanations with immensely useful problem-solving strategies.
Written by three leading Intel engineers, High-Speed Digital System Design clarifies difficult and often neglected topics involving the effects of high frequencies on digital buses and presents a variety of proven techniques and application examples.
Extensive appendices, formulas, modeling techniques as well as hundreds of figures are also provided. This book describes for readers the entire, interconnected complex of theoretical and practical aspects of designing and organizing the production of various electronic devices, the general and main distinguishing feature of which is the high speed of processing and transmitting of digital signals.
The authors discuss all the main stages of design - from the upper system level of the hierarchy telecommunications system, 5G mobile communications to the lower level of basic semiconductor elements, printed circuit boards. Since the developers of these devices in practice deal with distorted digital signals that are transmitted against a background of interference, the authors not only explain the physical nature of such effects, but also offer specific solutions as to how to avoid such parasitic effects, even at the design stage of high-speed devices.
High-Speed Signal Propagation: Advanced Black Magic brings together state-of-the-art techniques for building digital devices that can transmit faster and farther than ever before.
Howard Johnson presents brand-new examples and design guidance, and a complete, unified theory of signal propagation for all metallic media. Compatible with any devices. High-Speed Digital System Design bridges the gap from theory to implementation in the real world. Systems with clock speeds in low megahertz range qualify for high-speed. Proper design results in quality digital transmissions and lowers the chance for errors.
This book is for computer and electrical engineers who may or may not have learned electromagnetic theory. The presentation style allows readers to quickly begin designing their own high-speed systems and diagnosing existing designs for errors.
After studying this book, readers will be able to: Design the power distribution system for a printed circuit board to minimize noise Plan the layers of a PCB for signals, power, and ground to maximize signal quality and minimize noise Include test structures in the printed circuit board to easily diagnose manufacturing mistakes Choose the best PCB design parameters such a trace width, height,and routed path to ensure the most stable characteristic impedance Determine the correct termination to minimize reflections Predict the delay caused by a given PCB trace Minimize driver power consumption using AC terminations Compensate for discontinuities along a PCB trace Use pre-emphasis and equalization techniques to counteract lossy transmission lines Determine the amount of crosstalk between two traces Diagnose existing PCBs to determine the sources of errors.
The authors discuss all the main stages. The program consisted of six tutorials per day during three. High-speed, power-efficient analog integrated circuits can be used as standalone devices or to interface modern digital signal processors and micro-controllers in various applications, including multimedia, communication, instrumentation, and control systems.
New architectures and low device geometry of complementary metaloxidesemiconductor CMOS technologies have accelerated the movement toward system on a chip. Mike Peng Li, cochair of. The book is written for both students and practicing engineers who need a quick tutorial on how to use the software and who need in-depth. Home High Speed Digital Design. High speed Digital Design. High speed Digital Design by Howard W. Johnson,Martin Graham. Hall,Howard L. Hall,Hall,Garrett W.
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