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Debugging Embedded Microprocessor Systems provides techniques for engineers, technicians, and students who need to correct design faults in embedded systems. Using real-world scenarios, designers can learn practical, time-saving ways to avoid and repair potentially costly problems. Prevention is stressed. In this book, the author addresses hardware and software issues, including up-front design techniques to prevent bugs and contain design creep. Practical advice includes descriptions of common tools which can be used to help identify and repair bugs, as well as test routines. RTOS and embedded PC environments are also covered. Each chapter of Debugging Embedded Microprocessor Systems opens with an example design problem which illustrates real-world issues such as design changes, time pressures, equipment or component availability, etc. Case studies of past debugging projects are presented in the final chapter. - Addresses real-world issues like design changes, time pressures, equipment or component availability - Practical, time-saving methods for preventing and correcting design problems - Covers debugging tools and programmer test routines
The less-experienced engineer will be able to apply Ball's advice to everyday projects and challenges immediately with amazing results. In this new edition, the author has expanded the section on debug to include avoiding common hardware, software and interrupt problems. Other new features include an expanded section on system integration and debug to address the capabilities of more recent emulators and debuggers, a section about combination microcontroller/PLD devices, and expanded information on industry standard embedded platforms. - Covers all 'species' of embedded system chips rather than specific hardware - Learn how to cope with 'real world' problems - Design embedded systems products that are reliable and work in real applications
System Design; Digital to Analog Converters; Sensors; Time-Based Measurements; Output Control Methods; Solenoids, Relays, and Other Analog Outputs; Motors; EMI; High Precision Applications; Standard Interfaces.
Embedded microprocessor systems are affecting our daily lives at a fast pace, mostly unrecognised by the general public. Most of us are aware of the part they are playing in increasing business efficiency through office applications such as personal computers, printers and copiers. Only a few people, however, fully appreciate the growing role of embedded systems in telecommunications and industrial environments, or even in everyday products like cars and home appliances. The challenge to engineers and managers is not only highlighted by the sheer size of the market, ' 1.5 billion microcontrollers and microprocessors are produced every year ' but also by the accelerating innovation in embedded systems towards higher complexity in hardware, software and tools as well as towards higher performance and lower consumption. To maintain competitiveness in this demanding environment, an optimum mix of innovation, time to market and system cost is required. Choosing the right options and strategies for products and companies is crucial and rarely obvious. In this book the editors have, therefore, skilfully brought together more than fifty contributions from some of the leading authorities in embedded systems. The papers are conveniently grouped in four sections.
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. - Provides a unique reference on Debugging Embedded and Real-Time Systems - Presents best practice strategies for debugging real-time systems - Written by an author with many years of experience as a tools developer - Includes real-life case studies that show how debugging skills can be improved - Covers logic analysis, JTAG debuggers and performance analyzers that are used for designing and debugging embedded systems
This textbook for courses in Embedded Systems introduces students to necessary concepts, through a hands-on approach. It gives a great introduction to FPGA-based microprocessor system design using state-of-the-art boards, tools, and microprocessors from Altera/Intel® and Xilinx®. HDL-based designs (soft-core), parameterized cores (Nios II and MicroBlaze), and ARM Cortex-A9 design are discussed, compared and explored using many hand-on designs projects. Custom IP for HDMI coder, Floating-point operations, and FFT bit-swap are developed, implemented, tested and speed-up is measured. Downloadable files include all design examples such as basic processor synthesizable code for Xilinx and Altera tools for PicoBlaze, MicroBlaze, Nios II and ARMv7 architectures in VHDL and Verilog code, as well as the custom IP projects. Each Chapter has a substantial number of short quiz questions, exercises, and challenging projects. Explains soft, parameterized, and hard core systems design tradeoffs; Demonstrates design of popular KCPSM6 8 Bit microprocessor step-by-step; Discusses the 32 Bit ARM Cortex-A9 and a basic processor is synthesized; Covers design flows for both FPGA Market leaders Nios II Altera/Intel and MicroBlaze Xilinx system; Describes Compiler-Compiler Tool development; Includes a substantial number of Homework’s and FPGA exercises and design projects in each chapter.
Embedded Microprocessor Systems is an introduction to the design of embedded microprocessor systems, from the initial concept through debugging the final result. Unlike many books on the market, Embedded Microprocessor Systems is not limited to describing any specific processor family, but covers the operation of and interfaces to several types of processors with an emphasis on cost and design tradeoffs. Included throughout the book are numerous examples, tips, and pitfalls you can only learn from an experienced designer. Not only will you find out how to implement faster and better design processes, but also how to avoid time-consuming and expensive mistakes. The author's many years of experience in industry have given him an extremely practical approach to design realities and problems. He describes the entire process of designing circuits and the software that controls them, assessing the system requirements, as well as testing and debugging systems. The less-experienced engineer will be able to apply Ball's advice to everyday projects and challenges immediately with amazing results. As an added bonus to this new edition, the author has included a chapter on advanced concepts and appendices of interest to students and beginners. Embedded Microprocessor Systems is an introduction to the design of embedded microprocessor systems, from the initial concept through debugging the final result. Unlike many books on the market, Embedded Microprocessor Systems is not limited to describing any specific processor family, but covers the operation of and interfaces to several types of processors with an emphasis on cost and design tradeoffs. Included throughout the book are numerousexamples, tips, and pitfalls you can only learn from an experienced designer. Not only will you find out how to implement faster and better design processes, but also how to avoid time-consuming and expensive mistakes. The author's many years of experience in industry have given him an extremely practical approach to design realities and problems. He describes the entire process of designing circuits and the software that controls them, assessing the system requirements, as well as testing and debugging systems. The less-experienced engineer will be able to apply Ball's advice to everyday projects and challenges immediately with amazing results. As an added bonus to this new edition, the author has included a chapter on advanced concepts and appendices of interest to students and beginners. Revised and expanded by the original author Covers both hardware and software for a variety of embedded systems A clear, comprehensive introduction to the subject with real-world examples
Authored by two of the leading authorities in the field, this guide offers readers the knowledge and skills needed to achieve proficiency with embedded software.
Debugging by Thinking: A Multi-Disciplinary Approach is the first book to apply the wisdom of six disciplines-logic, mathematics, psychology, safety analysis, computer science, and engineering-to the problem of debugging. It uses the methods of literary detectives such as Sherlock Holmes, the techniques of mathematical problem solving, the results of research into the cognitive psychology of human error, the root cause analyses of safety experts, the compiler analyses of computer science, and the processes of modern engineering to define a systematic approach to identifying and correcting software errors. * Language Independent Methods: Examples are given in Java and C++ * Complete source code shows actual bugs, rather than contrived examples * Examples are accessible with no more knowledge than a course in Data Structures and Algorithms requires * A "thought process diary" shows how the author actually resolved the problems as they occurred
Interested in developing embedded systems? Since they donâ??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 whoâ??s created embedded systems ranging from urban surveillance and DNA scanners to childrenâ??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. Itâ??s very well writtenâ??entertaining, evenâ??and filled with clear illustrations." â??Jack Ganssle, author and embedded system expert.