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The power consumption of integrated circuits is one of the most problematic considerations affecting the design of high-performance chips and portable devices. The study of power-saving design methodologies now must also include subjects such as systems on chips, embedded software, and the future of microelectronics. Low-Power Electronics Design covers all major aspects of low-power design of ICs in deep submicron technologies and addresses emerging topics related to future design.

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This volume explores, in individual chapters written by expert authors, the many low-power techniques born during the past decade. It also discusses the many different domains and disciplines that impact power consumption, including processors, complex circuits, software, CAD tools, and energy sources and management. The authors delve into what many specialists predict about the future by presenting techniques that are promising but are not yet reality.

They investigate nanotechnologies, optical circuits, ad hoc networks, e-textiles, as well as human powered sources of energy. Low-Power Electronics Design delivers a complete picture of today's methods for reducing power, and also illustrates the advances in chip design that may be commonplace 10 or 15 years from now. Convert currency. Add to Basket. Condition: New. Seller Inventory ABE More information about this seller Contact this seller. Brand new book, sourced directly from publisher. Dispatch time is working days from our warehouse.

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Seller Inventory F Discrete and continuous random variables, expectation and moments. Transformation of random variables. Joint and conditional densities. Limit theorems and statistics. Noise models, system reliability and testing. EEC — Statistical And Digital Communication Catalog Description : Introduction to random process models of modulated signals and noise, and analysis of receiver performance. Analog and digitally modulated signals. Signal-to-noise ratio, probability of error, matched filters. Intersymbol interface, pulse shaping and equalization.

Carrier and clock synchronizations. Presents a simplified Reduced Instruction Set Computer using logic design methods from the prerequisite course. EEC — Parallel Computer Architectures Catalog Description : Organization and design of parallel processors including shared-memory multiprocessors, cache coherence, memory consistency, snooping protocols, synchronization, scalable multiprocessors, message passing protocols, distributed shared memory and interconnection networks.

ISO seven-layer model. Physical aspects of data transmission. Data-link layer protocols. Network architectures.

Local area networks. Medium access protocols. Network performance analysis. Only 2 units of credit for students who have taken ECS Example topics include wireless networks, multimedia networking, network design and management, traffic analysis and modeling, network simulations and performance analysis.

Offered in alternate years. Cross-listed with ECS C. May cover advanced topics in digital system design such as static timing analysis, pipelining, memory system design, and testing digital circuits. This is a team project that includes a final presentation and report. EEC — Testing and Verification of Digital Systems Catalog Description : Computer-aided testing and design verification techniques for digital systems; physical fault testing; simulation-based design verification; formal verification; timing analysis. Students work in groups to design, build and test speed control circuits, track sensing circuits, and a steering control loop.

EEC — Issues In Engineering Design Catalog Description : The course covers various electrical and computer engineering standards and realistic design constraints including economic, manufacturability, sustainability, ethical, health and safety, environmental, social, and political. For upper-division undergraduate students who will provide tutorial assistance. Classification of digital filters, linear phase systems, all-pass functions, FIR and IIR filter design methods and optimality measures, numerically robust structures for digital filters.

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  • EEC — Digital Image Processing Catalog Description : Two-dimensional systems theory, image perception, sampling and quantization, transform theory and applications, enhancement, filtering and restoration, image analysis, and image processing systems. Stability and compensation of feedback amplifiers. Introduction to noise analysis in MOS circuits. Application to communication circuits. Specific applications include mixers, low-noise amplifiers, power amplifiers, phase-locked loops, oscillators and receiver architectures. Passive components, single-ended and fully differential op amps, sampled-data and continuous-time filters.

    EEC — Data-Conversion Techniques and Circuits Catalog Description : Digital-to-analog and analog-to-digital conversion; component characteristics and matching; sample-and-hold, comparator, amplifier, and reference circuits. Low power architectures, logic styles and circuit design. Variable supply and threshold voltages.

    Leakage management. Power estimation. Energy sources, power electronics, and energy recovery. Applications in portable electronics and sensors. Thermodynamic limits. Passive LC filter design will cover doubly-terminated reactance two-port synthesis. Active filter design will include sensitivity, op-amp building blocks, cascade, multi-loop, ladder and active-R filter design.

    Includes wideband transformers, tapered networks, stripline and microstripline broadband couplers and hybrids.

    Li Xu - IEEE Xplore Author Details

    Lumped and distributed filter synthesis. Broadband matching theory applied to microwave devices. FET amplifiers. Antenna design, analysis of horns, microstrip, log periodic, arrays, spirals, and reflectors.

    Low-Power Electronics Design (Computer Engineering Series)

    EECA — Plasma Physics and Controlled Fusion Catalog Description : Equilibrium plasma properties; single particle motion; fluid equations; waves and instabilities in a fluid plasma;plasma kinetic theory and transport coefficients; linear and nonlinear Vlasov theory; fluctuations, correlations and radiation; inertial and magnetic confinement systems in controlled fusion.

    EECB — Plasma Physics and Controlled Fusion Catalog Description : Equilibrium plasma properties; single particle motion; fluid equations; waves and instabilities in a fluid plasma; plasma kinetic theory and transport coefficients; linear and nonlinear Vlasov theory; fluctuations, correlations and radiation; inertial and magnetic confinement systems in controlled fusion. EECC — Plasma Physics and Controlled Fusion Catalog Description : Equilibrium plasma properties; single particle motion; fluid equations; waves and instabilities in a fluid plasma; plasma kinetic theory and transport coefficients; linear and nonlinear Vlasov theory; fluctuations, correlations and radiation; inertial and magnetic confinement systems in controlled fusion.

    Applications of these techniques to transmission circuits. Offered in even years. EEC — High Speed Signal Integrity Catalog Description : Design and analysis of interconnects in high-speed circuits and sub-systems; understanding of high-speed signal propagation and signal integrity concepts; electromagnetic modeling tools and experimental techniques.

    EECA — Physics and Technology of Microwave Vacuum Electron Beam Devices I Catalog Description : Physics and technology of electron beam emission, flow and transport, electron gun design, space charge waves and klystrons with applications to accelerator systems, RF power sources for radar and communication systems, thermionic energy conversion, and electric space propulsion. Recent advances in materials and manufacturing technologies are also reviewed. EECB — Physics and Technology of Microwave Vacuum Electron Beam Devices II Catalog Description : Theory, modeling, and experimental design of traveling wave tubes, backward wave oscillators, and extended interaction oscillators employed in satellite commutations, plasma imaging, and underground imaging systems.

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    EECC — Physics and Technology of Microwave Vacuum Electron Beam Devices III Catalog Description : Physics and technology of gyrotrons, gyro-amplifiers, free electron lasers, magnetrons, cross-field amplifiers, and relativistic devices employed in plasma fusion reactors, microwave heating, and high power microwave applications. EEC — Photonics Catalog Description : Optical propagation of electromagnetic waves and beams in photonic components and the design of such devices using numerical techniques.

    EEC — Nonlinear Optical Applications Catalog Description : Nonlinear optical interactions have important applications in optical information processing, telecommunications and integrated optics. The basic concepts underlying optical nonlinear interactions in materials and in guided media are presented. Offered in alternate years Not open to credit for those students who have taken course EEC Theory of population inversion, amplification and oscillation using semiclassical oscillator model and rate equations.

    Description and design of real laser systems. Relationship to rate equation approach. Optical Bloch equations and coherent effects. Theory and practice of active and passive mode-locking of lasers. Injection locking.

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    EEC — Semiconductor Diode Lasers Catalog Description : Understanding of fundamental optical transitions in semiconductors and quantum-confined systems are applied to diode lasers and selected photonic devices. The importance of radiative and non-radiative recombination, simulated emission, excitons in quantum wells, and strained quantum layers are considered. Sources of physical layer impairments and limitations in network scalability.

    Enabling technologies for wavelength-division-multiplexing and time-division-multiplexing networks. Optical amplifiers and their impact in optical networks signal-to-noise ratio, gain-equalization, and cascadability. Note: Students previously enrolled in course EEC may not receive credit for this course. Optical systems design and integration using optical component technologies. Case studies of next generation technologies. EEC — Semiconductor Devices Catalog Description : Physical principles, characteristics and models of various semiconductor devices including: P-N junction and metal-insulator-semiconductor diodes, junction and insulated gated field effect transistors EECIntroduction to Molecular Electronics Catalog Description : Examines molecules for electronic devices and sensors.

    Course covers: electronic states of molecules, charge transport in nanoscale systems, and fabrication and measurement of molecular-scale devices. Overview of new devices enabled by nanotechnology; fabrication and characterization methods; applications of nano-structures and devices. Micromechanical fundamentals, CAD tools, case studies.