Developing Reusable Firmware
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Reusable Firmware Development
Gain the knowledge and skills necessary to improve your embedded software and benefit from author Jacob Beningo’s more than 15 years developing reusable and portable software for resource-constrained microcontroller-based systems. You will explore APIs, HALs, and driver development among other topics to acquire a solid foundation for improving your own software. Reusable Firmware Development: A Practical Approach to APIs, HALs and Drivers not only explains critical concepts, but also provides a plethora of examples, exercises, and case studies on how to use and implement the concepts. What You'll Learn Develop portable firmware using the C programming language Discover APIs and HALs, explore their differences, and see why they are important to developers of resource-constrained software Master microcontroller driver development concepts, strategies, and examples Write drivers thatare reusable across multiple MCU families and vendors Improve the way software documented Design APIs and HALs for microcontroller-based systems Who This Book Is For Those with some prior experience with embedded programming.
Developing Reusable Firmware
DEVELOPING REUSABLE FIRMWARE - A PRACTICAL APPROACH TO APIS, HALS AND DRIVERS Embedded systems are becoming more complex with users expecting more and more features, needing to connect to the internet, provide security, remote device management and many other features. Developing drivers and application code from scratch is no longer an option and developers and companies that do so will quickly find themselves struggling to compete in today's fast paced environment. The key to success is leveraging existing software and making sure that it is reusable and portable to any microcontroller based system. In "Developing Reusable Firmware - A Practical Approach to APIs, HALs and Drivers", Jacob Beningo provides readers with the knowledge and skills necessary to improve their own embedded software based on more than 15 years developing reusable and portable software for resource constrained microcontroller based systems. Jacob explores API's, HAL's and driver development among other topics to provide readers with a solid foundation for improving their own software. The book not only explores critical concepts but also provides a plethora of examples, exercises and case studies on how to use and implement the concepts.
Patterns in the Machine
Discover how to apply software engineering patterns to develop more robust firmware faster than traditional embedded development approaches. In the authors' experience, traditional embedded software projects tend towards monolithic applications that are optimized for their target hardware platforms. This leads to software that is fragile in terms of extensibility and difficult to test without fully integrated software and hardware. Patterns in the Machine focuses on creating loosely coupled implementations that embrace both change and testability. This book illustrates how implementing continuous integration, automated unit testing, platform-independent code, and other best practices that are not typically implemented in the embedded systems world is not just feasible but also practical for today's embedded projects. After reading this book, you will have a better idea of how to structure your embedded software projects. You will recognize that while writing unit tests, creating simulators, and implementing continuous integration requires time and effort up front, you will be amply rewarded at the end of the project in terms of quality, adaptability, and maintainability of your code. You will: Incorporate automated unit testing into an embedded project Design and build functional simulators for an embedded project Write production-quality software when hardware is not available Use the Data Model architectural pattern to create a highly decoupled design and implementation Understand the importance of defining the software architecture before implementation starts and how to do it Discover why documentation is essential for an embedded project Use finite state machines in embedded projects.