05450nam 2200697 a 450 99642632900331620200520144314.01-299-45228-00-12-415941-9(CKB)2550000001018636(EBL)1164535(OCoLC)840113711(SSID)ssj0000908795(PQKBManifestationID)11477604(PQKBTitleCode)TC0000908795(PQKBWorkID)10913554(PQKB)11305038(OCoLC)846961844(MiAaPQ)EBC1164535(CaSebORM)9780124159174(PPN)17662466X(Au-PeEL)EBL1164535(CaPaEBR)ebr10685620(CaONFJC)MIL476478(EXLCZ)99255000000101863620141030d2013 uy 0engur|n|---|||||txtccrSoftware engineering for embedded systems[electronic resource] methods, practical techniques, and applications /Robert Oshana, Mark Kraeling1st ed.Amsterdam ;Boston Elsevier/Newnes20131 online resource (1201 p.)Expert guideDescription based upon print version of record.0-12-415917-6 Includes bibliographical references and index.Front Cover; Software Engineering for Embedded Systems; Copyright Page; Contents; Software Engineering for Embedded Systems: A Roadmap; Foreword to Software Engineering for Embedded Systems; Acknowledgments; About the Editors; About the Authors; 1 Software Engineering of Embedded and Real-Time Systems; Software engineering; Embedded systems; Embedded systems are reactive systems; Real-time systems; Types of real-time systems - soft and hard; Differences between real-time and time-shared systems; Examples of hard real-timeBased on signal sample, time to perform actions before next sample arrivesHard real-time systems; Real-time event characteristics; Real-time event categories; Efficient execution and the execution environment; Efficiency overview; Resource management; Challenges in real-time system design; Response time; Recovering from failures; The embedded system software build process; Distributed and multi-processor architectures; Software for embedded systems; Super loop architecture; Power-save super loop; Window lift embedded design; Hardware abstraction layers (HAL) for embedded systems; Summary2 Embedded Systems Hardware/Software Co-DevelopmentToday's embedded systems - an example; HW/SW prototyping users; HW/SW prototyping options; Prototyping decision criteria; Choosing the right prototype; Industry design chain; The need to change the design flow; Different types of virtual prototypes; A brief history of virtual prototypes; The limits of proprietary offerings; What makes virtual prototypes fast; Standardization: the era of SystemC TLM-2.0; SystemC TLM-2 abstraction levels; Architecture virtual prototypes; Software virtual prototypesSummary - the growing importance of virtualization3 Software Modeling for Embedded Systems; When and why should you model your embedded system?; Modeling; What is a modeling language?; Examples of modeling languages; The V diagram promise; So, why would you want to model your embedded system?; When should you model your embedded system?; Mission- and safety-critical applications; Highly complex applications and systems; Operational complexity; Cost of defect versus when detected; Large development teams require modeling; Modeling is often the only choiceSo - modeling is great, but aren't all models wrong?You have your prototype - now what?; Conclusion; Next steps - try it!; Closed-loop control with a DC motor; Learn more about prototyping with a downloadable kit; Designing applications with the NI Statechart Module; Design and simulate a brushed dc motor h-bridge circuit; Multi-domain physical modeling with open-source Modelica models; References; 4 Software Design Architecture and Patterns for Embedded Systems; Overview of architecture and design; Architecture is about system-wide optimization; Three levels of designWhat are design patterns? 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 patternsHardware interfacesEmbedded operating systems, including Linux and AndroidMemory, performance, and power optimizationUser interface consiSignal processingDigital techniquesEmbedded computer systemsComputer softwareDevelopmentElectronic books.Signal processingDigital techniques.Embedded computer systems.Computer softwareDevelopment.006.22Oshana Robert896750Kraeling Mark896751MiAaPQBOOK996426329003316Software engineering for embedded systems2003510UNISA