Elektronik: kredse og komponenter

This book provides an easy-to-read introduction into quantum computing as well as classical simulation of quantum circuits. The authors showcase the enormous potential that can be unleashed when doing these simulations using decision diagrams¿a data structure common in the design automation community but hardly used in quantum computing yet. In fact, the covered algorithms and methods are able to outperform previously proposed solutions on certain use cases and, hence, provide a complementary solution to established approaches. The award-winning methods are implemented and available as open-source under free licenses and can be easily integrated into existing frameworks such as IBM¿s Qiskit or Atos¿ QLM.

This book examines the critical differences between current and next-generation Si technologies (CMOS, BiCMOS and SiC) and technology platforms (e.g. system-on-chip) in mm-wave wireless applications. We provide a basic overview of the two technologies from a technical standpoint, followed by a review of the state-of-the-art of several key building blocks in wireless systems. The influences of system requirements on the choice of semiconductor technology are vital to understanding the merits of CMOS and BiCMOS devices - e.g., output power, battery life, adjacent channel interference, cost restrictions, and so forth. These requirements, in turn, affect component-level design and performance metrics of oscillators, mixers, power and low-noise amplifiers, as well as phase-locked loops and data converters. Finally, the book offers a peek into the next generation of wireless technologies such as THz -band systems and future 6G applications.

This book tackles the challenges of designing mm-wave circuits in 16nm FinFET, from the elementary transistor level to a measured D-band transmitter. The design of crucial building blocks such as oscillators and power amplifiers are covered through theoretical limitations, design methodology and measurement.Offers first book on design of mm-wave circuits above 100GHz in an advanced 16nm FinFET digital technology;Covers fundamentals of transistor layout, circuit implementation and measurements;Provides single-source reference to information otherwise only available in disparate literature.

This contributed book provides a thorough understanding of the basics along with detailed state-of-the-art emerging interconnect technologies for integrated circuit design and flexible electronics. It focuses on the investigation of advanced on-chip interconnects which match the current as well as future technology requirements. The contents focus on different aspects of interconnects such as material, physical characteristics, parasitic extraction, design, structure, modeling, machine learning, and neural network-based models for interconnects, signaling schemes, varying signal integrity performance analysis, variability, reliability aspects, associated electronic design automation tools. The book also explores interconnect technologies for flexible electronic systems. It also highlights the integration of sensors with stretchable interconnects to demonstrate the concept of a stretchable sensing network for wearable and flexible applications. This book is a useful guide for those working in academia and industry to understand the fundamentals and application of interconnect technologies.

This book discusses the design of switched-capacitor filters in deep-submicron CMOS technologies. The authors describe several topologies for switched-capacitor filter circuits that do not require high-gain high-bandwidth amplifiers. Readers will also learn two analysis methodologies that can be implemented efficiently in software and integrated into optimization environments for the automation of design for switched-capacitor filters. Although the optimization examples discussed utilize low gain amplifiers, the demonstrated methodologies can also be used for conventional, high-gain high-bandwidth amplifiers.

This book describes solutions to the problems of energy efficiency, resiliency and cyber security in the domain of Edge Computing and reports on early deployments of the technology in commercial settings. This book takes a business focused view, relating the technological outcomes to new business opportunities made possible by the edge paradigm. Drawing on the experience of end user deploying prototype edge technology, the authors discuss applications in financial management, wireless management, and social networks. Coverage includes a chapter on the analysis of total cost of ownership, thereby enabling readers to calculate the efficiency gain for use of the technology in their business.Provides a single-source reference to the state-of-the art of edge computing;Describes how researchers across the world are addressing challenges relating to power efficiency, ease of programming and emerging cyber security threats in this domain;Discusses total cost of ownership for applications in financial management and social networks;Discusses security challenges in wireless management.

Das Buch vermittelt Lösungsverfahren für partielle Riccati-Differenzialgleichungen (DGL). Diese DGL appliziert man zur mathematischen Beschreibung der Funktion von Faraday-Effekt-Stromsensoren. Ausgehend vom allgemeinen Lösungsverhalten erfolgt die Definition des individuellen sowie kollektiven Lösungsverhaltens einer beliebigen Gleichung. Reiner Thiele erklärt den Unterschied zwischen Individual- und Partiallösungen. Außerdem kreiert er Simulationsdiagramme und zeigt, dass es sich bei der Hardware um Regelkreise handelt.

This volume covers digital design techniques, exercises and applications. The book discusses digital design and implementation in the context of VLSI and embedded system design. It covers basic digital design techniques to high speed design techniques. The contents also cover performance improvement, optimization concepts and design case studies. It includes pedagogical features such as design examples and illustrations. This book will be a useful guide for hardware engineers, logic design engineers, professionals and hobbyists looking to learn and use the digital design to develop VLSI based algorithms, architectures and products.

Ecosystem Alarm Management outlines a manifesto in systems architecture that demonstrates how one can act true to strong ideals, whilst offering practical solutions that mitigate shared risks for the global commons. In adopting such a perspective, compromise and pragmatism isn't necessary for a focused initiative towards assured platform stability.Aidan T. Parkinson is a professional engineer with experience in the governance, systems architecture, controls systems specification specification, witnessing and commissioning of complex projects in the built environment.His investigations of platform ecosystem governance began with doctoral training at Cambridge University Engineering Department. 10 years on, he is an advocate of peoples approaches that emphasise learning in the present generation, depending little on the forecasts and policies of nation states.

This book discusses the Versatile Video Coding (VVC), the ISO and ITU state-of-the-art video coding standard. VVC reaches a compression efficiency significantly higher than its predecessor standard (HEVC) and it has a high versatility for efficient use in a broad range of applications and different types of video content, including Ultra-High Definition (UHD), High-Dynamic Range (HDR), screen content, 360 videos, and resolution adaptivity. The authors introduce the novel VVC tools for block partitioning, intra-frame and inter-frames predictions, transforms, quantization, entropy coding, and in-loop filtering. The authors also present some solutions exploring VVC encoding behavior at different levels to accelerate the intra-frame prediction, applying statistical-based heuristics and machine learning (ML) techniques.

This book provides readers with an overview of Cloud Computing, starting with historical background on mainframe computers and early networking protocols, leading to current concerns such as hardware and systems security, performance, emerging areas of IoT, Edge Computing, and healthcare etc.  Readers will benefit from the in-depth discussion of cloud computing usage and the underlying architectures.  The authors explain carefully the "e;why's and how's"e; of Cloud Computing, so engineers will find this book an invaluable source of information to the topic.  This third edition includes new material on Cloud Computing Scalability, as well as best practices for using dynamic cloud infrastructure, and cloud operations management with cost optimizations.  Several new examples and analysis of cloud security have been added, including ARM architecture and https protocol.Provides practical guidance for software developers engaged in migrating in-house applications to Public Cloud;Describes for IT managers how to improve their Cloud Computing infrastructures;Includes coverage of security concerns with Cloud operating models;Uses several case studies to illustrate the "e;why's and how's"e; of using the Cloud;Examples and options to improve Cloud Computing Scalability. 

This textbook provides readers with a comprehensive introduction to various noise sources that significantly reduce performance and reliability in nanometer-scale integrated circuits. The author covers different types of noise, such as crosstalk noise caused by signal switching of adjacent wires, power supply noise or IR voltage drop in the power line due to simultaneous buffer / gate switching events, substrate coupling noise, radiation-induced transients, thermally induced noise and noise due to process and environmental Coverages also includes the relationship between some of these noise sources, as well as compound effects, and modeling and mitigation of noise mechanisms.

This book describes a comprehensive combination of methodologies that strongly enhance the modern Virtual Prototype (VP)-based verification flow for heterogeneous systems-on-chip (SOCs). In particular, the book combines verification and analysis aspects across various stages of the VP-based verification flow, providing a new perspective on verification by leveraging advanced techniques, like metamorphic testing, data flow testing, and information flow testing. In addition, the book puts a strong emphasis on advanced coverage-driven methodologies to verify the functional behavior of the SOC as well as ensure its security.Provides an extensive introduction to the modern VP-based verification flow for heterogeneous SOCs;Introduces a novel metamorphic testing technique for heterogeneous SOCs which does not require reference models;Includes automated advanced data flow coverage-driven methodologies tailored for SystemC/AMS-based VPs;Describes enhanced functional coverage-driven methodologies to verify various functional behaviors of RF amplifiers.

The book discusses a broad overview of traditional machine learning methods and state-of-the-art deep learning practices for hardware security applications, in particular the techniques of launching potent "e;modeling attacks"e; on Physically Unclonable Function (PUF) circuits, which are promising hardware security primitives. The volume is self-contained and includes a comprehensive background on PUF circuits, and the necessary mathematical foundation of traditional and advanced machine learning techniques such as support vector machines, logistic regression, neural networks, and deep learning. This book can be used as a self-learning resource for researchers and practitioners of hardware security, and will also be suitable for graduate-level courses on hardware security and application of machine learning in hardware security. A stand-out feature of the book is the availability of reference software code and datasets to replicate the experiments described in the book.

This book presents select proceedings of the International Conference on Micro and Nanoelectronics Devices, Circuits and Systems (MNDCS-2022). The book includes cutting-edge research papers in the emerging fields of micro and nanoelectronics devices, circuits, and systems from experts working in these fields over the last decade. The book is a unique collection of chapters from different areas with a common theme and is immensely useful to academic researchers and practitioners in the industry who work in this field.

This book presents a novel, automated, accurate and unified scheme to design and determine the performance characteristics of standalone planar, spiral inductors and multiple coupled planar spiral inductors (as in embedded transformers), for RF/microwave MMIC designers. The author demonstrates with a set of analysis/design examples a novel scheme that exploits judiciously the existing transmission theory and concepts, organizing and condensing available, scattered information/knowledge about planar spiral inductor, embedded planar transformer and planar antenna design and performance evaluation, into one coherent and unified electronic circuit model easily used by radio frequency electronic circuit engineers. A dedicated chapter contains an exhaustive (19) set of design examples.Presents a bottom-up scheme, starting with  Maxwell's equations of classical electrodynamics and transmission line theory (Telegrapher's equation), specifically microstrips;Demonstrates design of standalone planar, spiral inductors and multiple coupled planar spiral inductors;Includes a  set of ready-to-use, C executables (for both Linux and Windows) , that accept predefined input parameters for each of the sub-circuits discussed and generate SPICE netlists for the equivalent electrical circuit;Automates execution of multi-step design calculations to guarantee their accuracy and reliability.

Integrated circuit (IC) design refers to a branch of electronics engineering that deals with the specific logic and circuit design methods required for creating integrated circuits. They are made up of miniaturized electronic components that are assembled into an electrical network on a monolithic semiconductor substrate through photolithography. IC design has been primarily categorized into two types including analog and digital IC design. The digital IC design is generally used for the production of components like FPGAs, digital ASICs, microprocessors and memories. Digital design emphasizes on the maximization of circuit density, logical correctness, and strategically placing circuits to route timing signals and clock efficiently. Analog IC design includes the specialties of RF IC design and power IC design. Analog IC design is used for fabricating oscillators, op-amps, phase locked loops, active filters and linear regulators. The topics included in this book on the design of digital circuits are of utmost significance and bound to provide incredible insights to readers. It presents this complex topic in the most comprehensible and easy to understand language. This book is a resource guide for experts as well as students.

Digital electronics refers to a branch of electronics concerned with the study of digital signals as well as components which use or generate them. Digital electronic circuits are typically constructed from large assemblies of logic gates which are packed in integrated circuits. The digital circuit is made up of several components serving a specific purpose. These components are classified into two types, including active components and passive components. The active components include diodes and transistors, whereas, the passive components comprise inductors, capacitors and resistors. Digital circuits are employed in a variety of fields and are an essential component of electronic gadgets. There are various applications of digital electronics including quantum computing and rocket science, traffic lights, display of digital watches and operations of automatic doors. This book unravels the recent studies on digital electronics. It will help the readers in keeping pace with the rapid changes in this field.

Circuit analysis is the process of finding all the currents and voltages in each element of an electrical or electronic circuit. Informally, circuit analysis is also known as solving a circuit. The different components of a circuit are resistors, transistors, capacitors, inductors and diodes. Circuit analysis deals with the calculation of unknown electrical circuit quantities such as voltage, current, resistance, impedance, power, etc. There are two important circuit analysis laws also known as Kirchhoff's laws. These laws are the Kirchhoff's Current Law (KCL) and the Kirchhoff's Voltage Law (KVL). KCL is one of the fundamental laws used for circuit analysis which states that the algebraic sum of all currents entering and exiting a node must be equal to zero. KVL states that the directed sum of the potential differences (voltages) around any closed loop is zero. This book provides a comprehensive understanding to the fundamental concepts of circuit analysis. Coherent flow of topics, student-friendly language, and extensive use of examples make it an invaluable source of knowledge for all the readers.