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Debugging Embedded and Real-Time Systems: The Art, Science, Technology, and Tools of Real-Time System Debugging

Product ID : 42754495


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About Debugging Embedded And Real-Time Systems: The

Product Description Debugging Embedded and Real-Time Systems: The Art, Science, Technology and Tools of Real-Time System Debugging gives a unique introduction to debugging skills and strategies for embedded and real-time systems. Practically focused, it draws on application notes and white papers written by the companies who create design and debug tools. Debugging Embedded and Real Time Systems presents best practice strategies for debugging real-time systems, through real-life case studies and coverage of specialized tools such as logic analysis, JTAG debuggers and performance analyzers. It follows the traditional design life cycle of an embedded system and points out where defects can be introduced and how to find them and prevent them in future designs. It also studies application performance monitoring, the execution trace recording of individual applications, and other tactics to debug and control individual running applications in the multitasking OS. Suitable for the professional engineer and student, this book is a compendium of best practices based on the literature as well as the author’s considerable experience as a tools’ developer. From the Back Cover Debugging Embedded and Real Time Systems: The Art, Science, Technology and Tools of Real Time System Debugging gives a unique introduction to debugging skills and strategies for embedded and real-time systems. Practically focused, it draws on application notes and white papers written by the companies who create the design and debug tools. Suitable for the professional engineer and student, this book is a compendium of best practices based on the literature (which are often hard to find) as well as the author’s considerable experience as a tools developer. What you will learn: The pin requirements and clocking speeds for debug ports How to access all CPU resources when execution stopped To performing read-write system memory access via debug port To control CPU execution How to debug and control individual running applications in the multitasking OS The execution trace recording of an individual application The benefits of auxiliary communication supported by the debug-port (such are printf) SOC performance data gathering which is configurable via debug port Application performance monitoring The latest debug support for multi-core SOC system Options for execution breakpoint control availability of data access breakpoints About the Author Arnold Berger has a Ph.D. in Material Science from Cornell University, with 20+ years of industrial experience, from hardware design engineer to Director of Research and Development (R&D) at several companies including Ford Motor Company, Hewlett-Packard, Advanced Micro Devices and Applied Microsystems. Dr. Berger has over 15 years’ teaching experience and was the first Chair of the Division of Engineering and Mathematics in the School of STEM. Dr. Berger has published over 60 papers, holds four patents and has authored two textbooks on computer architecture and embedded design. His research interests include designing tools for debugging embedded systems, enabling remote access of student lab experiments, and automatic plagiarism detection.