High-Speed DSP and Analog System Design is based on the author's over 25 years of experience in high-speed DSP and computer systems and courses in both digital and analog systems design at Rice University. It provides hands-on, practical advice for working engineers, including:-Tips on cost-efficient design and system simulation that minimize late-stage redesign costs and product shipment delays -Emphasis on good high-speed and analog design practices that minimize both component and system noise and ensure system design success.-Guidelines to be used throughout the design process to reduce noise and radiation and to avoid common pitfalls while improve quality and reliability.-Hand-on design examples focusing on audio, video, analog filters, DDR memory, and power supplies.The inclusion of analog systems and related issues cannot be found in other high-speed design books."This book is an essential resource for all engineers either interested in or working on system designs. It wascreated by a recognized system design expert who not only teaches these principles daily but who brings years of hands on design expertise as the creator of some of the personal computer industries' most differentiated audio solutions" -Jim Ganthier, Vice President of Marketing and Solutions, Industry Standard Servers- Hewlett-Packard "This book helps designers by highlighting the pitfalls of high-speed systems design and providing solutions that improve the probability of success. Investing a small amount of time in the use of low-noise and low-radiation design methods from the very beginning of the development cycle will generate a high payoff by minimizing late-stage redesign costs and delays in the product ship date. To improve the probability of design success, applying the rules outlined in this book is a must-do."-Gene Frantz, Principle Fellow, Texas Instruments Incorporated.High-Speed DSP and Analog System Design is appropriate for advancedundergraduate and graduate students, researchers and professionals in signal processing and system design.