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 was created 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 advanced undergraduate and graduate students, researchers and professionals in signal processing and system design.
The new edition of this textbook is based on Dr. Thanh T. Tran’s 10+ years’ experience teaching high-speed digital and analog design courses at Rice University and 30+ years’ experience working in high-speed system design, including signal and power integrity in digital signal processing (DSP), computer, and embedded system. The book provides hands-on, practical instruction on high-speed digital and analog design for students and working engineers. The author first presents good high-speed digital and analog design practices that minimize both component and system noise and ensure system design success. He then presents guidelines to be used throughout the design process to reduce noise and radiation and to avoid common pitfalls while improving quality and reliability. The book is filled with tips on design and system simulation that minimize late stage redesign costs and product shipment delays. Hands-on design examples focusing on audio, video, analog filters, DDR memory, and power supplies are featured throughout. In addition, the author provides a practical approach to design multi-gigahertz high-speed serial busses (USB-C, PCIe, HDMI, DP) and simulate printed circuit board insertion and return loss using s-parameter models.
The new edition of this textbook is based on Dr. Thanh T. Tran’s 10+ years’ experience teaching high-speed digital and analog design courses at Rice University and 30+ years’ experience working in high-speed system design, including signal and power integrity in digital signal processing (DSP), computer, and embedded system. The book provides hands-on, practical instruction on high-speed digital and analog design for students and working engineers. The author first presents good high-speed digital and analog design practices that minimize both component and system noise and ensure system design success. He then presents guidelines to be used throughout the design process to reduce noise and radiation and to avoid common pitfalls while improving quality and reliability. The book is filled with tips on design and system simulation that minimize late stage redesign costs and product shipment delays. Hands-on design examples focusing on audio, video, analog filters, DDR memory, and power supplies are featured throughout. In addition, the author provides a practical approach to design multi-gigahertz high-speed serial busses (USB-C, PCIe, HDMI, DP) and simulate printed circuit board insertion and return loss using s-parameter models.
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 was created 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 advanced undergraduate and graduate students, researchers and professionals in signal processing and system design.
This book provides a comprehensive examination of preconditioners for boundary element discretisations of first-kind integral equations. Focusing on domain-decomposition-type and multilevel methods, it allows readers to gain a good understanding of the mechanisms and necessary techniques in the analysis of the preconditioners. These techniques are unique for the discretisation of first-kind integral equations since the resulting systems of linear equations are not only large and ill-conditioned, but also dense. The book showcases state-of-the-art preconditioning techniques for boundary integral equations, presenting up-to-date research. It also includes a detailed discussion of Sobolev spaces of fractional orders to familiarise readers with important mathematical tools for the analysis. Furthermore, the concise overview of adaptive BEM, hp-version BEM, and coupling of FEM-BEM provides efficient computational tools for solving practical problems with applications in science and engineering.
This chapter is an introduction to applied cross-cultural data analysis, and addressed the concepts of culture and how culture can be integrated into social work research. We review the definition of culture and how it has been understood and examined in research across different disciplines. We present an overview of the theories and frameworks of cross-cultural analysis, and provide the lens through which culture is examined through the techniques and approaches that are used in this book"--
The Vietnamese Mekong Delta boasts a rich diversity of fish species, including over 300 types in its freshwater, brackish, and saltwater environments. The Mekong River plays a crucial role in supporting these fish populations, particularly the Butidae, Gobiidae and Eleotridae fish families, which have economic significance. Although research has been conducted on these fish species in recent years, it has been fragmented, making it challenging to assess and conserve these resources effectively. This monograph addresses this issue, offering a comprehensive perspective on the fish family in this region. The monograph is the culmination of a decade of research, featuring in-depth investigations, covering genetic characteristics, morphology, reproduction, feeding habits, and population dynamics. The goal is to provide a holistic understanding of these species and their ecosystems, aiding their conservation. The research contributes to the broader sense of aquatic ecosystems and the intricacies of fish survival in this region.
Graphene-like materials have attracted considerable interest in the fields of condensed-matter physics, chemistry, and materials science due to their interesting properties as well as the promise of a broad range of applications in energy storage, electronic, optoelectronic, and photonic devices.The contents present the diverse phenomena under development in the grand quasiparticle framework through the first-principles calculations. The critical mechanisms, the orbital hybridizations and spin configurations of graphene-like materials through the chemical adsorptions, intercalations, substitutions, decorations, and heterojunctions, are taken into account. Specifically, the hydrogen-, oxygen-, transition-metal- and rare-earth-dependent compounds are thoroughly explored for the unusual spin distributions. The developed theoretical framework yields concise physical, chemical, and material pictures. The delicate evaluations are thoroughly conducted on the optimal lattices, the atom- and spin-dominated energy bands, the orbital-dependent sub-envelope functions, the spatial charge distributions, the atom- orbital- and spin-projected density of states, the spin densities, the magnetic moments, and the rich optical excitations. All consistent quantities are successfully identified by the multi-orbital hybridizations in various chemical bonds and guest- and host-induced spin configurations.The scope of the book is sufficiently broad and deep in terms of the geometric, electronic, magnetic, and optical properties of 3D, 2D, 1D, and 0D graphene-like materials with different kinds of chemical modifications. How to evaluate and analyze the first-principles results is discussed in detail. The development of the theoretical framework, which can present the diversified physical, chemical, and material phenomena, is obviously illustrated for each unusual condensed-matter system. To achieve concise physical and chemical pictures, the direct and close combinations of the numerical simulations and the phenomenological models are made frequently available via thorough discussions. It provides an obvious strategy for the theoretical framework, very useful for science and engineering communities.
Structure- and Adatom-Enriched Essential Properties of Graphene Nanoribbons offers a systematic review of the feature-rich essential properties in emergent graphene nanoribbons, covering mainstream theoretical and experimental research. It includes a wide range of 1D systems; namely, armchair and zigzag graphene nanoribbons with and without hydrogen terminations, curved and zipped graphene nanoribbons, folded graphene nanoribbons, carbon nanoscrolls, bilayer graphene nanoribbons, edge-decorated graphene nanoribbons, and alkali-, halogen-, Al-, Ti, and Bi-absorbed graphene nanoribbons. Both multiorbital chemical bondings and spin arrangements, which are responsible for the diverse phenomena, are explored in detail. First-principles calculations are developed to thoroughly describe the physical, chemical, and material phenomena and concise images explain the fundamental properties. This book examines in detail the application and theory of graphene nanoribbons, offering a new perspective on up-to-date mainstream theoretical and experimental research.
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