November 28, 2020

Download Ebook Free Software Engineering For Embedded Systems

Software Engineering for Embedded Systems

Software Engineering for Embedded Systems
Author : Robert Oshana
Publisher : Newnes
Release Date : 2013-04-01
Category : Computers
Total pages :1200
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This Expert Guide gives you the techniques and technologies in software engineering 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 using software engineering methods to develop your embedded systems. With this book you will learn: The principles of good architecture for an embedded system Design practices to help make your embedded project successful Details on principles that are often a part of embedded systems, including digital signal processing, safety-critical principles, and development processes Techniques for setting up a performance engineering strategy for your embedded system software How to develop user interfaces for embedded systems Strategies for testing and deploying your embedded system, and ensuring quality development processes Practical techniques for optimizing embedded software for performance, memory, and power Advanced guidelines for developing multicore software for embedded systems How to develop embedded software for networking, storage, and automotive segments How to manage the embedded development process Includes contributions from: Frank Schirrmeister, Shelly Gretlein, Bruce Douglass, Erich Styger, Gary Stringham, Jean Labrosse, Jim Trudeau, Mike Brogioli, Mark Pitchford, Catalin Dan Udma, Markus Levy, Pete Wilson, Whit Waldo, Inga Harris, Xinxin Yang, Srinivasa Addepalli, Andrew McKay, Mark Kraeling and Robert Oshana. Road map of key problems/issues and references to their solution in the text Review of core methods in the context of how to apply them Examples demonstrating timeless implementation details Short and to- the- point case studies show how key ideas can be implemented, the rationale for choices made, and design guidelines and trade-offs

Software Engineering for Embedded Systems

Software Engineering for Embedded Systems
Author : Robert Oshana,Mark Kraeling
Publisher : Unknown
Release Date : 2013
Category : Technology & Engineering
Total pages :1150
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Software Engineering for Embedded Systems clearly explains the software engineering tools and techniques needed to optimally design and implement embedded systems in contexts sure as networking, storage, and automotive applications. Written by experts with a solutions focus, this encyclopedic reference is a useful aid to tackling typical problems and issues, including: Architecture and design patterns Hardware interfaces Embedded operating systems, including Linux and Android Memory, performance, and power optimization User interface considerations Software development tools Testing and quality control Advanced guidelines for multicore software development Includes contributions from: Frank Schirrmeister, Shelly Gretlein, Bruce Douglass, Erich Styger, Gary Stringham, Jean Labrosse, Jim Trudeau, Mike Brogioli, Mark Pitchford, Catalin Dan Udma, Markus Levy, Pete Wilson, Whit Waldo, Inga Harris, Xinxin Yang, Srinivasa Addepalli, Andrew McKay, Mark Kraeling and Robert Oshana. Clearly lays out key problems and issues, and how to solve them Examples demonstrate proven implementation details Practical case studies cover examples of multicore programming, sensor programming, user interface design, and performance engineering

Software Engineering for Embedded Systems

Software Engineering for Embedded Systems
Author : Robert Oshana,Mark Kraeling
Publisher : Newnes
Release Date : 2019-06-21
Category : Technology & Engineering
Total pages :645
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Software Engineering for Embedded Systems: Methods, Practical Techniques, and Applications, Second Edition provides the techniques and technologies in software engineering to optimally design and implement an embedded system. Written by experts with a solution focus, this encyclopedic reference gives an indispensable aid on how to tackle the day-to-day problems encountered when using software engineering methods to develop embedded systems. New sections cover peripheral programming, Internet of things, security and cryptography, networking and packet processing, and hands on labs. Users will learn about the principles of good architecture for an embedded system, design practices, details on principles, and much more. Provides a roadmap of key problems/issues and references to their solution in the text Reviews core methods and how to apply them Contains examples that demonstrate timeless implementation details Users case studies to show how key ideas can be implemented, the rationale for choices made, and design guidelines and trade-offs

Software Engineering for Embedded Systems

Software Engineering for Embedded Systems
Author : Robert Oshana
Publisher : Unknown
Release Date : 2013
Category : Engineering
Total pages :1200
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This Expert Guide gives you the techniques and technologies in software engineering 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 using software engineering methods to develop your embedded systems. With this book you will learn : The principles of good architecture for an embedded system Design practices to help make your embedded project successful Details on principles that are often a part of embedded systems, including digital signal processing, safety-critical principles, and development processes Techniques for setting up a performance engineering strategy for your embedded system software How to develop user interfaces for embedded systems Strategies for testing and deploying your embedded system, and ensuring quality development processes Practical techniques for optimizing embedded software for performance, memory, and power Advanced guidelines for developing multicore software for embedded systems How to develop embedded software for networking, storage, and automotive segments How to manage the embedded development process Includes contributions from: Frank Schirrmeister, Shelly Gretlein, Bruce Douglass, Erich Styger, Gary Stringham, Jean Labrosse, Jim Trudeau, Mike Brogioli, Mark Pitchford, Catalin Dan Udma, Markus Levy, Pete Wilson, Whit Waldo, Inga Harris, Xinxin Yang, Srinivasa Addepalli, Andrew McKay, Mark Kraeling and Robert Oshana. Road map of key problems/issues and references to their solution in the text Review of core methods in the context of how to apply them Examples demonstrating timeless implementation details Short and to- the- point case studies show how key ideas can be implemented, the rationale for choices made, and design guidelines and trade-offs.

Software Engineering for Embedded Systems

Software Engineering for Embedded Systems
Author : Inga Harris
Publisher : Elsevier Inc. Chapters
Release Date : 2013-04-01
Category : Technology & Engineering
Total pages :1200
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This chapter introduces the automotive system, which is unlike any other, characterized by its rigorous planning, architecting, development, testing, validation and verification. The physical task of writing embedded software for automotive applications versus other application areas is not significantly different from other embedded systems, but the key differences are the quality standards which must be followed for any development and test project. To write automotive software the engineer needs to understand how and why the systems have evolved into the complex environment it is today. They must be aware of the differences and commonalties between the automotive submarkets. They must be familiar with the applicable quality standards and why such strict quality controls exist, along with how quality is tested and measured, all of which are described in this chapter with examples of the most common practices. This chapter introduces various processes to help software engineers write high-quality, fault-tolerant, interoperable code such as modeling, autocoding and advanced trace and debug assisted by the emergence of the latest AUTOSAR and ISO26262 standards, as well as more traditional standards such as AEC, OBD-II and MISRA.

Software Engineering for Embedded Systems

Software Engineering for Embedded Systems
Author : Mark Pitchford
Publisher : Elsevier Inc. Chapters
Release Date : 2013-04-01
Category : Technology & Engineering
Total pages :1200
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State of the art techniques and best practices in the development of embedded software apply not only to high-integrity devices (such as those for safety-critical applications like aircraft flight controllers, car braking systems or medical devices), but also to lesser-integrity applications when the need to optimize the effectiveness of the available test time and budget demands that pragmatic decisions should be made. To complement this multitude of software test techniques there is a similar plethora of test tools available to automate them. These tools are commonplace in the development of safety-critical applications, but elsewhere not everyone has the budget to buy all, or indeed any, of them. Of course, the providers of these tools would advocate the purchase of each and every one of them, so how can a limited budget best be allocated? And where no budget exists, how can similar principles be applied to provide confidence that the finished item is of adequate quality? In addressing these issues not only are the concepts behind the techniques presented, but also some “case study” software code examples to drill a little deeper and illustrate how some of them are implemented in practice.

Software Engineering for Embedded Systems

Software Engineering for Embedded Systems
Author : Bruce Douglass
Publisher : Elsevier Inc. Chapters
Release Date : 2013-04-01
Category : Technology & Engineering
Total pages :1200
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Agile software development is a set of software development techniques based on iterative development. Requirements and software systems evolve through collaboration between self-organizing, cross-functional teams. Agile development supports adaptive planning, evolutionary development and delivery, and a time-boxed iterative approach. The goal of agile is rapid and flexible response to change. Agile is a conceptual framework which promotes interactions throughout the development cycle. Applying agile to embedded software projects introduces some unique challenges, such as more difficulty effectively testing evolving software features, because the corresponding hardware may not be available in time, less freedom to make changes, due to the fact that the corresponding hardware change may have an unacceptably high cost, and less ability for “learn as you go” approaches, considering the hardware construction may demand a more upfront style of planning and design. This chapter will introduce agile software development and show how to apply these techniques to an embedded system.

Software Engineering for Embedded Systems, 2nd Edition

Software Engineering for Embedded Systems, 2nd Edition
Author : Robert Oshana,Mark Kraeling
Publisher : Unknown
Release Date : 2019
Category :
Total pages :645
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Software Engineering for Embedded Systems: Methods, Practical Techniques, and Applications, Second Edition provides the techniques and technologies in software engineering to optimally design and implement an embedded system. Written by experts with a solution focus, this encyclopedic reference gives an indispensable aid on how to tackle the day-to-day problems encountered when using software engineering methods to develop embedded systems. New sections cover peripheral programming, Internet of things, security and cryptography, networking and packet processing, and hands on labs. Users will learn about the principles of good architecture for an embedded system, design practices, details on principles, and much more. Provides a roadmap of key problems/issues and references to their solution in the text Reviews core methods and how to apply them Contains examples that demonstrate timeless implementation details Users case studies to show how key ideas can be implemented, the rationale for choices made, and design guidelines and trade-offs.

Design Patterns for Embedded Systems in C

Design Patterns for Embedded Systems in C
Author : Bruce Powel Douglass
Publisher : Elsevier
Release Date : 2010-11-03
Category : Computers
Total pages :472
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A recent survey stated that 52% of embedded projects are late by 4-5 months. This book can help get those projects in on-time with design patterns. The author carefully takes into account the special concerns found in designing and developing embedded applications specifically concurrency, communication, speed, and memory usage. Patterns are given in UML (Unified Modeling Language) with examples including ANSI C for direct and practical application to C code. A basic C knowledge is a prerequisite for the book while UML notation and terminology is included. General C programming books do not include discussion of the contraints found within embedded system design. The practical examples give the reader an understanding of the use of UML and OO (Object Oriented) designs in a resource-limited environment. Also included are two chapters on state machines. The beauty of this book is that it can help you today. . Design Patterns within these pages are immediately applicable to your project Addresses embedded system design concerns such as concurrency, communication, and memory usage Examples contain ANSI C for ease of use with C programming code

Software Engineering for Embedded Systems

Software Engineering for Embedded Systems
Author : Jean J. Labrosse
Publisher : Elsevier Inc. Chapters
Release Date : 2013-04-01
Category : Technology & Engineering
Total pages :1200
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Real-time operating systems (RTOS) are ubiquitous in embedded systems. This chapter explains what a real-time kernel is and what services it provides the product developer, and explains some of the internals of a kernel. A kernel is a component of an RTOS. In this chapter, we’ll look at task management, interrupt handling, scheduling, context switching, time management, resource management, message passing, priority inversions and much more.

Embedded Systems Hardware for Software Engineers

Embedded Systems Hardware for Software Engineers
Author : Ed Lipiansky
Publisher : McGraw Hill Professional
Release Date : 2011-09-22
Category : Technology & Engineering
Total pages :512
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A PRACTICAL GUIDE TO HARDWARE FUNDAMENTALS Embedded Systems Hardware for Software Engineers describes the electrical and electronic circuits that are used in embedded systems, their functions, and how they can be interfaced to other devices. Basic computer architecture topics, memory, address decoding techniques, ROM, RAM, DRAM, DDR, cache memory, and memory hierarchy are discussed. The book covers key architectural features of widely used microcontrollers and microprocessors, including Microchip's PIC32, ATMEL's AVR32, and Freescale's MC68000. Interfacing to an embedded system is then described. Data acquisition system level design considerations and a design example are presented with real-world parameters and characteristics. Serial interfaces such as RS-232, RS-485, PC, and USB are addressed and printed circuit boards and high-speed signal propagation over transmission lines are covered with a minimum of math. A brief survey of logic families of integrated circuits and programmable logic devices is also contained in this in-depth resource. COVERAGE INCLUDES: Architecture examples Memory Memory address decoding Read-only memory and other related devices Input and output ports Analog-to-digital and digital-to-analog converters Interfacing to external devices Transmission lines Logic families of integrated circuits and their signaling characteristics The printed circuit board Programmable logic devices Test equipment: oscilloscopes and logic analyzers

Making Embedded Systems

Making Embedded Systems
Author : Elecia White
Publisher : "O'Reilly Media, Inc."
Release Date : 2011-10-25
Category : Computers
Total pages :330
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Interested in developing embedded systems? Since they don’t tolerate inefficiency, these systems require a disciplined approach to programming. This easy-to-read guide helps you cultivate a host of good development practices, based on classic software design patterns and new patterns unique to embedded programming. Learn how to build system architecture for processors, not operating systems, and discover specific techniques for dealing with hardware difficulties and manufacturing requirements. Written by an expert who’s created embedded systems ranging from urban surveillance and DNA scanners to children’s toys, this book is ideal for intermediate and experienced programmers, no matter what platform you use. Optimize your system to reduce cost and increase performance Develop an architecture that makes your software robust in resource-constrained environments Explore sensors, motors, and other I/O devices Do more with less: reduce RAM consumption, code space, processor cycles, and power consumption Learn how to update embedded code directly in the processor Discover how to implement complex mathematics on small processors Understand what interviewers look for when you apply for an embedded systems job "Making Embedded Systems is the book for a C programmer who wants to enter the fun (and lucrative) world of embedded systems. It’s very well written—entertaining, even—and filled with clear illustrations." —Jack Ganssle, author and embedded system expert.

Model-Based Engineering of Embedded Systems

Model-Based Engineering of Embedded Systems
Author : Klaus Pohl,Harald Hönninger,Reinhold Achatz,Manfred Broy
Publisher : Springer Science & Business Media
Release Date : 2012-11-08
Category : Computers
Total pages :304
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Embedded systems have long become essential in application areas in which human control is impossible or infeasible. The development of modern embedded systems is becoming increasingly difficult and challenging because of their overall system complexity, their tighter and cross-functional integration, the increasing requirements concerning safety and real-time behavior, and the need to reduce development and operation costs. This book provides a comprehensive overview of the Software Platform Embedded Systems (SPES) modeling framework and demonstrates its applicability in embedded system development in various industry domains such as automation, automotive, avionics, energy, and healthcare. In SPES 2020, twenty-one partners from academia and industry have joined forces in order to develop and evaluate in different industrial domains a modeling framework that reflects the current state of the art in embedded systems engineering. The content of this book is structured in four parts. Part I “Starting Point” discusses the status quo of embedded systems development and model-based engineering, and summarizes the key requirements faced when developing embedded systems in different application domains. Part II “The SPES Modeling Framework” describes the SPES modeling framework. Part III “Application and Evaluation of the SPES Modeling Framework” reports on the validation steps taken to ensure that the framework met the requirements discussed in Part I. Finally, Part IV “Impact of the SPES Modeling Framework” summarizes the results achieved and provides an outlook on future work. The book is mainly aimed at professionals and practitioners who deal with the development of embedded systems on a daily basis. Researchers in academia and industry may use it as a compendium for the requirements and state-of-the-art solution concepts for embedded systems development.

Embedded and Real Time System Development: A Software Engineering Perspective

Embedded and Real Time System Development: A Software Engineering Perspective
Author : Mohammad Ayoub Khan,Saqib Saeed,Ashraf Darwish,Ajith Abraham
Publisher : Springer
Release Date : 2013-11-19
Category : Computers
Total pages :330
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Nowadays embedded and real-time systems contain complex software. The complexity of embedded systems is increasing, and the amount and variety of software in the embedded products are growing. This creates a big challenge for embedded and real-time software development processes and there is a need to develop separate metrics and benchmarks. “Embedded and Real Time System Development: A Software Engineering Perspective: Concepts, Methods and Principles” presents practical as well as conceptual knowledge of the latest tools, techniques and methodologies of embedded software engineering and real-time systems. Each chapter includes an in-depth investigation regarding the actual or potential role of software engineering tools in the context of the embedded system and real-time system. The book presents state-of-the art and future perspectives with industry experts, researchers, and academicians sharing ideas and experiences including surrounding frontier technologies, breakthroughs, innovative solutions and applications. The book is organized into four parts “Embedded Software Development Process”, “Design Patterns and Development Methodology”, “Modelling Framework” and “Performance Analysis, Power Management and Deployment” with altogether 12 chapters. The book is aiming at (i) undergraduate students and postgraduate students conducting research in the areas of embedded software engineering and real-time systems; (ii) researchers at universities and other institutions working in these fields; and (iii) practitioners in the R&D departments of embedded system. It can be used as an advanced reference for a course taught at the postgraduate level in embedded software engineering and real-time systems.

Component-Based Software Development for Embedded Systems

Component-Based Software Development for Embedded Systems
Author : Colin Atkinson,Christian Bunse,Hans-Gerhard Gross,Christian Peper
Publisher : Springer Science & Business Media
Release Date : 2005-12-12
Category : Computers
Total pages :344
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Embedded systems are ubiquitous. They appear in cell phones, microwave ovens, refrigerators, consumer electronics, cars, and jets. Some of these embedded s- tems are safety- or security-critical such as in medical equipment, nuclear plants, and X-by-wire control systems in naval, ground and aerospace transportation - hicles. With the continuing shift from hardware to software, embedded systems are increasingly dominated by embedded software. Embedded software is complex. Its engineering inherently involves a mul- disciplinary interplay with the physics of the embedding system or environment. Embedded software also comes in ever larger quantity and diversity. The next generation of premium automobiles will carry around one gigabyte of binary code. The proposed US DDX submarine is e?ectively a ?oating embedded so- ware system, comprising 30 billion lines of code written in over 100 programming languages. Embedded software is expensive. Cost estimates are quoted at around US$15– 30 per line (from commencement to shipping). In the defense realm, costs can range up to $100, while for highly critical applications, such as the Space Shuttle, the cost per line approximates $1,000. In view of the exponential increase in complexity, the projected costs of future embedded software are staggering.