This Expert Guide gives you the techniques and technologies in embedded multicore to optimally design and implement your embedded system. Written by experts with a solutions focus, this encyclopedic reference gives you an indispensable aid to tackling the day-to-day problems when building and managing multicore embedded systems.

Following an embedded system design path from start to finish, our team of experts takes you from architecture, through hardware implementation to software programming and debug.

With this book you will learn:

What motivates multicore

The architectural options and tradeoffs; when to use what

How to deal with the unique hardware challenges that multicore presents

How to manage the software infrastructure in a multicore environment

How to write effective multicore programs

How to port legacy code into a multicore system and partition legacy software

How to optimize both the system and software

The particular challenges of debugging multicore hardware and software

Examples demonstrating timeless implementation details
Proven and practical techniques reflecting the authors expertise built from years of experience and key advice on tackling critical issues"

This book provides a careful explanation of the basic areas of electronics and computer architecture, along with lots of examples, to demonstrate the interface, sensor design, programming and microcontroller peripheral setup necessary for embedded systems development. With no need for mechanical knowledge of robots, the book starts by demonstrating how to modify a simple radio-controlled car to create a basic robot. The fundamental electronics of the MSP430 are described, along with programming details in both C and assembly language, and full explanations of ports, timing, and data acquisition. Further chapters cover inexpensive ways to perform circuit simulation and prototyping.

Key features include:

Thorough treatment of the MSP430 s architecture and functionality along with detailed application-specific guidance Programming and the use of sensor technology to build an embedded system A learn-by-doing experience

With this book you will learn:

The basic theory for electronics design

- Analog circuits

- Digital logic

- Computer arithmetic

- Microcontroller programming

How to design and build a working robotAssembly language and C programming How to develop your own high-performance embedded systems application using an on-going robotics application

Teaches how to develop your own high-performance embedded systems application using an on-going robotics application

Thorough treatment of the MSP430 s architecture and functionality along with detailed application-specific guidance.

Focuses on electronics, programming and the use of sensor technology to build an embedded system

Covers assembly language and C programming "

Any device or system with imaging functionality requires a digital video processing solution as part of its embedded system design. Engineers need a practical guide to technology basics and design fundamentals that enables them to deliver the video component of complex projects.

This book introduces core video processing concepts and standards, and delivers practical how-to guidance for engineers embarking on digital video processing designs using FPGAs. It covers the basic topics of video processing in a pictorial, intuitive manner with minimal use of mathematics. Key outcomes and benefits of this book for users include: understanding the concepts and challenges of modern video systems; architect video systems at a system level; reference design examples to implement your own high definition video processing chain; understand implementation trade-offs in video system designs.

Video processing is a must-have skill for engineers working on products and solutions for rapidly growing markets such as video surveillance, video conferencing, medical imaging, military imaging, digital broadcast equipment, displays and countless consumer electronics applications.

This book is for engineers who need to develop video systems in their designs but who do not have video processing experience. It introduces the fundamental video processing concepts and skills in enough detail to get the job done, supported by reference designs, step-by-step FPGA- examples, core standards and systems architecture maps.

Written by lead engineers at Altera Corp, a top-three global developer of digital video chip (FPGA) technology. "

Hermeticity of Electronic Packages is a book about the integrity of sealed packages to resist foreign gases and liquids penetrating the seal or an opening (crack) in the packageuespecially critical to the reliability and longevity of electronics. The author explains how to predict the reliability and the longevity of the packages based on leak rate measurements and the assumptions of impurities. Non-specialists in particular will benefit from the author's long involvement in the technology. Hermeticity is a subject that demands practical experience, and solving one problem does not necessarily give one the background to solve another. Thus, the book provides a ready reference to help deal with day to day issues as they arise. The book gathers in a single volume a great many issues previously available only in journalsuor only in the experience of working engineers. How to define the ""goodness"" of a seal? How is that seal measured? How does the integrity of the seal affect circuit reliability? What is the significance of the measured integrity of the seal? What is the relationship of Residual Gas Analysis and the seal integrity? The handbook answers these questions and more, providing an analysis of nearly 100 problems representative of the wide variety of challenges that actually occur in industry today.

Robert Lacoste's The Darker Side column has quickly become a must read among Circuit Cellar devotees. His column provides readers with succinct theoretical concepts and practical applications on topics as far reaching as digital modulation to antenna basics. Difficult concepts are demystified as Robert shines a light on complex topics within electronic design.
This book collects sixteen Darker Side articles that have been enriched with new, exclusive content from the author. An intro into The Darker Side will give examples of material that can enhance and optimize the way you design. A Scilab tutorial along with Scilab software and all project material will be included with this package so that all projects can be tackled hands-on. Bonus Circuit Cellar content will be included on the CD for FREE It's time to stop being afraid of the dark, let this book easily guide you through the time-draining, problematic elements of your application design.
*Tips and tricks to enhance design performance
*Practical advice on topics from digital signal design to electromagnetic interference
*A project augments each topic and companion website (http: //www.elsevierdirect.com/v2/companion.jsp?ISBN=9781856177627)delivers allnecessary project files"

Multimedia processing demands efficient programming in order to optimize functionality. Data, image, audio, and video processing, some or all of which are present in all electronic devices today, are complex programming environments. Optimized algorithms (step-by-step directions) are difficult to create but can make all the difference when developing a new application.
This book discusses the most current algorithms available that will maximize your programming keeping in mind the memory and real-time constraints of the architecture with which you are working. A wide range of algorithms is covered detailing basic and advanced multimedia implementations, along with, cryptography, compression, and data error correction. The general implementation concepts can be integrated into many architectures that you find yourself working with on a specific project. Analog Devices' BlackFin technology is used for examples throughout the book.
*Discusses how to decrease algorithm development times to streamline your programming
*Covers all the latest algorithms needed for contrained systems
*Includes case studies on WiMAX, GPS, and portable media players

DSP is utilized in just about every electronic system or device. DSP is taking one piece of information be it data, image, video, or audio, most likely compressing, sending, and filtering it to another location within your application to appear in the form of a document, picture or video.

Like Smith before it, this book is different to most on the market by following a popular applied approach to this tricky subject, and will be the perfect starting point for engineers who need to get into DSP from the ground floor. This book starts with the absolute basics of this integral process.

No experience is expected and with no prior knowledge taken for granted, a refresher chapter on complex numbers and trigonometry can be found at the very beginning of the material. Real-world worked examples, reference designs, and tools - including online applets that enable readers to visualize key principles - complete a package that will help engineers who that needs to learn anew or refresh their memory on this essential technology as they move to projects that require DSP familiarity.
Dismayed when presented with a mass of equations as an explanation of DSP? This is the book for you

Clear examples and a non-mathematical approach gets you up to speed with DSP

Includes an overview of the DSP functions and implementation used in typical DSP-intensive applications, including error correction, CDMA mobile communication, and radar systems

PIC Microcontrollers are a favorite in industry and with hobbyists. These microcontrollers are versatile, simple, and low cost making them perfect for many different applications. The 8-bit PIC is widely used in consumer electronic goods, office automation, and personal projects. Author, Dogan Ibrahim, author of several PIC books has now written a book using the PIC18 family of microcontrollers to create projects with SD cards.
This book is ideal for those practicing engineers, advanced students, and PIC enthusiasts that want to incorporate SD Cards into their devices. SD cards are cheap, fast, and small, used in many MP3 players, digital and video cameras, and perfect for microcontroller applications.
Complete with Microchip's C18 student compiler and using the C language this book brings the reader up to speed on the PIC 18 and SD cards, knowledge which can then be harnessed for hands-on work with the eighteen projects included within. Two great technologies are brought together in this one practical, real-world, hands-on cookbook perfect for a wide range of PIC fans.

*Eighteen fully worked SD projects in the C programming language
*Details memory cards usage with the PIC18 family
*Companion Web site with project code listings to run onMicrochip's C18 student compiler"

FPGAs (Field-Programmable Gate Arrays) can be found in applications such as smart phones, mp3 players, medical imaging devices, and for aerospace and defense technology. FPGAs consist of logic blocks and programmable interconnects. This allows an engineer to start with a blank slate and program the FPGA for a specific task, for instance, digital signal processing, or a specific device, for example, a software-defined radio. Due to the short time to market and ability to reprogram to fix bugs without having to respin FPGAs are in increasingly high demand.
This book is for the engineer that has not yet had any experience with this electrifying and growing field. The complex issue of FPGA design is broken down into four distinct phases - Design / Synthesis / Simulation / Place & Route. Numerous step-by-step examples along with source code accompany the discussion. A brief primer of one of the popular FPGA and hardware languages, VHDL, is incorporated for a simple yet comprehensive learning tool. While a general technology background is assumed, no direct hardware development understanding is needed. Also, included are details on tool-set up, verifaction techniques, and test benches. Reference material consists of a quick reference guide, reserved words, and common VHDL/FPGA terms.
Learn how to design and develop FPGAs -- no prior experience necessary Breaks down the complex design and development of FPGAs into easy-to-learn building blocksContains examples, helpful tips, and step-by-step tutorials for synthesis, implementation, simulation, and programming phases

This handbook provides a consolidated, comprehensive information resource for engineers working with mission and safety critical systems. Principles, regulations, and processes common to all critical design projects are introduced in the opening chapters. Expert contributors then offer development models, process templates, and documentation guidelines from their own core critical applications fields: medical, aerospace, and military. Readers will gain in-depth knowledge of how to avoid common pitfalls and meet even the strictest certification standards. Particular emphasis is placed on best practices, design tradeoffs, and testing procedures.
*Comprehensive coverage of all key concerns for designers of critical systems including standards compliance, verification and validation, and design tradeoffs
*Real-world case studies contained within these pages provide insight from experience

The Newnes Know It All Series takes the best of what our authors have written to create hard-working desk references that will be an engineer's first port of call for key information, design techniques and rules of thumb. Guaranteed not to gather dust on a shelf
Field Application engineers need to master a wide area of topics to excel. The "Test and Measurement Know It All" covers every angle including Machine Vision and Inspection, Communications Testing, Compliance Testing, along with Automotive, Aerospace, and Defense testing.
A 360-degree view from our best-selling authors
Topics include the Technology of Test and Measurement, Measurement System Types, and Instrumentation for Test and Measurement.
The ultimate hard-working desk reference; all the essential information, techniques and tricks of the trade in one volume"

This book is the definitive guide to the techniques and applications of position location, covering both terrestrial and satellite systems. It gives all the techniques, theoretical models, and algorithms that engineers need to improve their current location schemes and to develop future location algorithms and systems.

Comprehensive coverage is given to system design trade-offs, complexity issues, and the design of efficient positioning algorithms to enable the creation of high-performance location positioning systems. Traditional methods are also reexamined in the context of the challenges posed by reconfigurable and multihop networks. Applications discussed include wireless networks (WiFi, ZigBee, UMTS, and DVB networks), cognitive radio, sensor networks and multihop networks.

Features

Contains a complete guide to models, techniques, and applications of position location

Includes applications to wireless networks, demonstrating the relevance of location positioning to these "hot" areas in research and development

Covers system design trade-offs and the design of efficient positioning algorithms, enabling the creation of future location positioning systems

Provides a theoretical underpinning for understanding current position location algorithms, giving researchers a foundation to develop future algorithms

David Munoz is Director and Cesar Vargas is a member of the Center for Electronics and Telecommunications, Tecnologico de Monterrey, Mexico. Frantz Bouchereau is a senior communications software developer at The MathWorks Inc. in Natick, MA. Rogerio Enriquez-Caldera is at Instituto Nacional de Atrofisica, Optica y Electronica (INAOE), Puebla, Mexico.
Contains a complete guide to models, techniques and applications of position location
Includes applications to wireless networks (WiFi, ZigBee, DVB networks), cognitive radio, sensor networks and reconfigurable and multi-hop networks, demonstrating the relevance of location positioning to these hot areas in research and development
Covers system design trade-offs, and the design of efficient positioning algorithms enables the creation of future location positioning systems
Provides a theoretical underpinning for understanding current position location algorithms, giving researchers a foundation to develop future algorithms"

Understand the RF and Digital Signal Processing Principles Driving Software-defined Radios
Software-defined radio (SDR) technology is a configurable, low cost, and power efficient solution for multimode and multistandard wireless designs. This book describes software-defined radio concepts and design principles from the perspective of RF and digital signal processing as performed within this system. After an introductory overview of essential SDR concepts, this book examines signal modulation techniques, RF and digital system analysis and requirements, Nyquist and oversampled data conversion techniques, and multirate digital signal processing..

KEY TOPICS
Modulation techniques
Master analog and digital modulation schemes
RF system-design parameters
Examine noise and link budget analysis and Non-linear signal analysis and design methodology
Essentials of baseband and bandpass sampling and gain control
IF sampling architecture compared to traditional quadrature sampling, Nyquist zones, automatic gain control, and filtering
Nyquist sampling converter architectures
Analysis and design of various Nyquist data converters
Oversampled data converter architectures
Analysis and design of continuous-time and discrete-time Delta-Sigma converters
Multirate signal processing
Gain knowledge of interpolation, decimation, and fractional data rate conversion
*Offers readers a powerful set of analytical and design tools
*Details real world designs
*Comprehensive coverage makes this a must have in the RF/Wireless industry"

The Newnes Know It All Series takes the best of what our authors have written to create hard-working desk references that will be an engineer's first port of call for key information, design techniques and rules of thumb. Guaranteed not to gather dust on a shelf
Communications engineers need to master a wide area of topics to excel. The "Wireless Security Know It All" covers every angle including Emerging Wireless Technologies and Security Issues, Wireless LAN and MAN Security, as well as Wireless Personal Area Networks.
A 360-degree view from our best-selling authors
Topics include Today s Wireless Technology, Security Definitions and Concepts, and Wireless Handheld devices
The ultimate hard-working desk reference; all the essential information, techniques and tricks of the trade in one volume"

The Newnes Know It All Series takes the best of what our authors have written to create hard-working desk references that will be an engineer's first port of call for key information, design techniques and rules of thumb. Guaranteed not to gather dust on a shelf!
Embedded software is present everywhere - from a garage door opener to implanted medical devices to multicore computer systems. This book covers the development and testing of embedded software from many different angles and using different programming languages. Optimization of code, and the testing of that code, are detailed to enable readers to create the best solutions on-time and on-budget. Bringing together the work of leading experts in the field, this a comprehensive reference that every embedded developer will need!
Chapter 1: Basic Embedded Programming Concepts
Chapter 2: Device Drivers
Chapter 3: Embedded Operating Systems
Chapter 4: Networking
Chapter 5: Error Handling and Debugging
Chapter 6: Hardware/Software Co-Verification
Chapter 7: Techniques for Embedded Media Processing
Chapter 8: DSP in Embedded Systems
Chapter 9: Practical Embedded Coding Techniques
Chapter 10: Development Technologies and Trends
*Proven, real-world advice and guidance from such "name" authors as Tammy Noergard, Jen LaBrosse, and Keith Curtis
*Popular architectures and languages fully discussed
*Gives a comprehensive, detailed overview of the techniques and methodologies for developing effective, efficient embedded software

The Newnes Know It All Series takes the best of what our authors have written to create hard-working desk references that will be an engineer's first port of call for key information, design techniques and rules of thumb. Guaranteed not to gather dust on a shelf!
RF (radio frequency) and wireless technologies drive communication today. This technology and its applications enable wireless phones, portable device roaming, and short-range industrial and commercial application communication such as the supply chain management wonder, RFID. Up-to-date information regarding software defined RF, using frequencies smarter, and, using more of the spectrum, with ultrawideband technology is detailed.
Chapter 1: Survey of RF and Wireless Technology
Chapter 2: Communications Protocols and Modulation
Chapter 3: Transmitters
Chapter 4: Receivers
Chapter 5: Radio Propagation
Chapter 6: Antenna Fundamentals I
Chapter 7: Antenna Fundamentals II.
Chapter 8: Basics of Wireless Local Area Networks
Chapter 9: Outdoor Networks.
Chapter 10: Voice Over Wi-Fi and Other Wireless Technologies
Chapter 11: Security in Wireless Local Area Networks
Chapter 12: System Planning
Chapter 13: System Implementation, Testing, and Optimization
Chapter 14: Next Generation Wireless Networks
Chapter 15: Mobile Ad Hoc Networks
Chapter 16: Wireless Sensor Networks
Chapter 17: Reliable Wireless Networks for Industrial Networks
Chapter 18: Software-Defined Radio
Chapter 19: The Basics of Radio Frequency Identification (RFID) Technology
Chapter 20: UWB Spectrum and Regulation
Chapter 21: Interference and Coexistence
Chapter 22: Direct Sequence UWB
Chapter 23: "Multiband Approach to UWB
Chapter 24: History and Background of Cognitive Radio
Chapter 25: The Software Defined Radio as a Platform for Cognitive Radio
Chapter 26: Cognitive Radio: The Technologies
Chapter 27: Spectrum Awareness
Chapter 28: Direct Sequence and Frequency Hopping Spread Spectrum
Chapter 29: RF Power Amplifiers
Chapter 30: Phase Locked Loop Techniques in Modern Communications Systems
Chapter 31 Orthogonal Frequency Division Multiplexing (OFDM)
*A 360 degree view from best-selling authors including Roberto Aiello, Bruce Fette, and Praphul Chandra
*Hot topics covered including ultrawideband and cognitive radio technologies
*The ultimate hard-working desk reference: all the essential information, techniques, and tricks of the trade in one volume

Famed author Jack Ganssle has selected the very best embedded systems design material from the Newnes portfolio and compiled into this volume. The result is a book covering the gamut of embedded design-from hardware to software to integrated embedded systems-with a strong pragmatic emphasis. In addition to specific design techniques and practices, this book also discusses various approaches to solving embedded design problems and how to successfully apply theory to actual design tasks. The material has been selected for its timelessness as well as for its relevance to contemporary embedded design issues. This book will be an essential working reference for anyone involved in embedded system design!
Table of Contents:
Chapter 1. Motors - Stuart Ball
Chapter 2. Testing - Arnold S. Berger
Chapter 3. System-Level Design - Keith E. Curtis
Chapter 4. Some Example Sensor, Actuator and Control Applications and Circuits (Hard Tasks) - Lewin ARW Edwards
Chapter 5. Installing and Using a Version Control System - Chris Keydel and Olaf Meding
Chapter 6. Embedded State Machine Implementation - Martin Gomez
Chapter 7. Firmware Musings - Jack Ganssle
Chapter 8. Hardware Musings - Jack Ganssle
Chapter 9. Closed Loop Controls, Rabbits, and Hounds - John M. Holland
Chapter 10. Application Examples David J. Katz and Rick Gentile
Chapter 11. Analog I/Os - Jean LaBrosse
Chapter 12. Optimizing DSP Software - Robert Oshana
Chapter 13. Embedded Processors - Peter Wilson
*Hand-picked content selected by embedded systems luminary Jack Ganssle
*Real-world best design practices including chapters on FPGAs, DSPs, and microcontrollers
*Covers both hardware andsoftware aspects of embedded systems

This new book manages the unthinkable- it conveys crucial technical information to engineers without boring them to tears In this unique reference, expert embedded designer Lisa Simone provides the solutions to typical embedded software debugging problems from a fresh new perspective. She introduces a team of engineers who readers will recognize from their own workplaces, and then confronts them with real-world debugging scenarios of progressive complexity, drawing the reader into the mysteries with their new fictional colleagues, and guiding them step-by-step toward successful solutions.
Table of Contents
Introduction
Chapter 1: The Case of the Irate Customer: Debugging Other People's Code, Fast
Chapter 2: The Newest Employee: Learning the Embedded Ropes Through Code Inheritance
Chapter 3: It Compiles with No Errors; It Must Work Integrating Changes in a Larger System
Chapter 4: The Case of Thermal Runaway: Rare Transient Bugs are Still Bugs
Chapter 5: The Case of the Creeping Slider Carriage and the Case of the Hesitating Clock: Alternate Methods of Understanding System Performance
Chapter 6: If I Only Changed the Software, Why is the Phone on Fire?
Chapter 7: The Case of the Rapid Heartbeat: Meeting the Spirit of the Requirement
Chapter 8: What Kind of Error Message is "lume Fault"? When all of the Symptoms Seem Impossible
Chapter 9: When It's Not Hardware, It's Software. And Vice Versa. Blurring the Interface.
Chapter 10: Li Mei s List of Debugging Secrets
.Unique format casts the reader as "technical detective" by presenting a new mystery in every chapter
.Not another dry technical book Conversational tone and intriguing quandaries draw the reader into the action, while teaching crucial debugging skills
.The final chapter, a summary of the smart debugging techniques introduced throughout the book, is a quick reference to help solve future problems"

* Clear, practical tutorial style text with real-world applications
* First book on TPM for embedded designers
* Provides a sound foundation on the TPM, helping designers take advantage of hardware security based on sound TCG standards
* Covers all the TPM basics, discussing in detail the TPM Key Hierarchy and the Trusted Platform
Module specification
* Presents a methodology to enable designers and
developers to successfully integrate the TPM into an embedded design and verify the TPM's operation on a specific platform
* Includes an accompanying CD-ROM that contains the full source code, which can be customized and used in embedded designs-an extremely useful tool and timesaver for embedded developers!
- This sound foundation on the TPM provides clear, practical tutorials with detailed real-world application examples
- The author is reknowned for training embedded systems developers to successfully implement the TPM worldwide
- CD-ROM includes source code which can be customized for different embedded applications

China's Electronics Industry is a comprehensive and current report on the technologies, manufacturing capabilities, and infrastructure that have made China a major player in the electronics industry. Not only does it cover the past, present, and future of important electronic technologies, but also the pros and cons of conducting business in China. This is an important reference for any company planning a venture in China as well as those who have already taken their first steps. It will also be of great interest to researchers and policy makers who need to know more about the role of central government in promoting strategic industries and assisting national science and technology development. Much of the data contained in the report is from 2006.No country has burst onto the economic scene as dramatically as China has in the past decade. It is the world's largest producer of many electronic products and has a leading edge semiconductor industry. This timely and comprehensive report from America's leading authority is a critical for anyone who is interested in working with China in the electronics field including business managers, academics, government institutes, foreign investors, as well as those who are interested in the past, present and future growth of China's Electronics Industry.If you are thinking about doing business in china's electronics industry, you must have this book.

Software Quality Control, Error, Analysis

Without sensors most electronic applications would not exist-sensors perform a vital function, namely providing an interface to the real world. Hall effect sensors, based on a magnetic phenomena, are one of the most commonly used sensing technologies today. In the 1970s it became possible to build Hall effect sensors on integrated circuits with onboard signal processing circuitry, vastly reducing the cost and enabling widespread practical use. One of the first major applications was in computer keyboards, replacing mechanical contacts. Hundreds of millions of these devices are now manufactured each year for use in a great variety of applications, including automobiles, computers, industrial control systems, cell phones, and many others.
The importance of these sensors, however, contrasts with the limited information available. Many recent advances in miniaturization, smart sensor configurations, and networkable sensor technology have led to design changes and a need for reliable information. Most of the technical information on Hall effect sensors is supplied by sensor manufacturers and is slanted toward a particular product line. System design and control engineers need an independent, readable source of practical design information and technical details that is not product- or manufacturer-specific and that shows how Hall effect sensors work, how to interface to them, and how to apply them in a variety of uses. This book covers:
-the physics behind Hall effect sensors
-Hall effect transducers
-transducer interfacing
-integrated Hall effect sensors and how to interface to them
-sensing techniques using Hall effect sensors
-application-specific sensorICs
-relevant development and design tools
This second edition is expanded and updated to reflect the latest advances in Hall effect devices and applications!
Information about various sensor technologies is scarce, scattered and hard to locate. Most of it is either too theoretical for working engineers, or is manufacturer literature that can't be entirely trusted. Engineers and engineering managers need a comprehensive, up-to-date, and accurate reference to use when scoping out their designs incorporating Hall effect sensors.
* A comprehensive, up-to-date reference to use when crafting all kinds of designs with Hall effect sensors
*Replaces other information about sensors that is too theoretical, too biased toward one particular manufacturer, or too difficult to locate
*Highly respected and influential author in the burgeoning sensors community

In an embedded system, firmware is the software that directly interfaces with the microcontroller, controlling the system s function. The major forces driving the embedded firmware development process today are reduced development times, increased complexity, and the need to handle multiple tasks simultaneously. These forces translate into strenuous design requirements for embedded engineers and programmers. Many low-level embedded microcontroller designs have insufficient memory and/or architectural limitations that make the use of a real-time operating system impractical. The techniques presented in this book allow the design of robust multitasking firmware through the use of interleaved state machines. This book presents a complete overview of multitasking terminology and basic concepts. Practical criteria for task selection and state machine design are also discussed.
Designing multitasking firmware is arduous, complex and fraught with potential for errors, and there is no one, standard way to do it. This book will present a complete and well-organized design approach with examples and sample source code that designers can follow.
* Covers every aspect of design from the system level to the component level, including system timing, communicating with the hardware, integration and testing.
* Accompanying companion website contains the source code for the text examples and other useful design tools."

A key technology enabling fast-paced embedded media processing developments is the high-performance, low-power, small-footprint convergent processor, a specialized device that combines the real-time control of a traditional microcontroller with the signal processing power of a DSP. This practical guide is your one-stop shop for understanding how to implement this cutting-edge technology. You will learn how to: * Choose the proper processor for an application. * Architect your system to avoid problems at the outset. * Manage your data flows and memory accesses so that they line up properly * Make smart-trade-offs in portable applications between power considerations and computational performance. * Divide processing tasks across multiple cores. * Program frameworks that optimize performance without needlessly increasing programming model complexity. * Implement benchmarking techniques that will help you adapt a framework to best fit a target application, and much more Covering the entire spectrum of EMP-related design issues, from easy-to-understand explanations of basic architecture and direct memory access (DMA), to in-depth discussions of code optimization and power management, this practical book will be an invaluable aid to every engineer working with EMP, from the beginner to the seasoned expert.

All disc-based content for this title is now available on the Web.

* Comprehensive subject coverage with emphasis on practical application * Essential assembly language code included throughout text * Many real-world examples using Analog's popular Blackfin Processor architecture

Wireless networking is poised to have a massive impact on communications, and the 802.11 standard is to wireless networking what Ethernet is to wired networking. There are already over 50 million devices using the dominant IEEE 802.11 (essentially wireless Ethernet) standard, with astronomical growth predicted over the next 10 years. New applications are emerging every day, with wireless capability being embedded in everything from electric meters to hospital patient tracking systems to security devices.
This practical reference guides readers through the wireless technology forest, giving them the knowledge, the hardware and the software necessary to design a wireless embedded device rapidly, inexpensively, and effectively. Using off-the-shelf microcontrollers from Microchip and Atmel, the author provides step-by-step instructions for designing the hardware and firmware for a fully operational wireless networking device. The book gives a thorough introduction to 802.11 technology and puts it into perspective against the other wireless standard options. Just enough theory and mathematics is provided to give the depth of understanding needed for practical design work.
The book thoroughly covers:
* Laptop wireless Ethernet card introduction and theory
*Introduction to CompactFlash-to-microcontroller interfacing
* Implementing the laptop wireless Ethernet card in an embedded environment
In addition, the book includes access to a companion website containing all of the code, schematics and programs necessary to implement embedded 802.11 wireless networking.
* Covers the hottest new embedded market area- wireless networking
* Shows designers how to save money and time by using microcontrollers in their embedded wireless designs instead of expensive, complex prefab boards
* Companion website accompanying book contains all the code, schematics and programs necessary to get started now