Master the fundamental concepts of real-time embedded system programming and jumpstart your embedded projects with effective design and implementation practices. This book bridges the gap between higher abstract modeling concepts and the lower-level programming aspects of embedded systems development. You gain a solid understanding of real-time embedded systems with detailed practical examples and industry wisdom on key concepts, design processes, and the available tools and methods.
Delve into the details of real-time programming so you can develop a working knowledge of the common design patterns and program structures of real-time operating systems (RTOS). The objects and services that are a part of most RTOS kernels are described and real-time system design is explored in detail. You learn how to decompose an application into units and how to combine these units with other objects and services to create standard building blocks. A rich set of ready-to-use, embedded design “building blocks” is also supplied to accelerate your development efforts and increase your productivity.
Experienced developers new to embedded systems and engineering or computer science students will both appreciate the careful balance between theory, illustrations, and practical discussions. Hard-won insights and experiences shed new light on application development, common design problems, and solutions in the embedded space. Technical managers active in software design reviews of real-time embedded systems will find this a valuable reference to the design and implementation phases.
Qing Li is a senior architect at Wind River Systems, Inc., and the lead architect of the company’s embedded IPv6 products. Qing holds four patents pending in the embedded kernel and networking protocol design areas. His 12+ years in engineering include expertise as a principal engineer designing and developing protocol stacks and embedded applications for the telecommunications and networks arena. Qing was one of a four-member Silicon Valley startup that designed and developed proprietary algorithms and applications for embedded biometric devices in the security industry.
Caroline Yao has more than 15 years of high tech experience ranging from development, project and product management, product marketing, business development, and strategic alliances. She is co-inventor of a pending patent and recently served as the director of partner solutions for Wind River Systems, Inc.
About the Authors
1.4 Points to Remember
1.4 Points to Remember
· An embedded system is built for a specific application. As such, the hardware and software components are highly integrated, and the development model is the hardware and software co-design model.
· Embedded systems are generally built using embedded processors.
· An embedded processor is a specialized processor, such as a DSP, that is cheaper to design and produce, can have built-in integrated devices, is limited in functionality, produces low heat, consumes low power, and does not necessarily have the fastest clock speed but meets the requirements of the specific applications for which it is designed.
· Real-time systems are characterized by the fact that timing correctness is just as important as functional or logical correctness.
· The severity of the penalty incurred for not satisfying timing constraints differentiates hard real-time systems from soft real-time systems.
· Real-time systems have a significant amount of application awareness similar to embedded systems.
· Real-time embedded systems are those embedded system with real-time behaviors.
