You're reading from Architecting High-Performance Embedded Systems Design and build high-performance real-time digital systems based on FPGAs and custom circuits

Product type Paperback

Published in Feb 2021

Publisher Packt

ISBN-13 9781789955965

Length 376 pages

Edition 1st Edition

Languages

Tools

Embedded Systems

Concepts

Design

Author (1):

Jim Ledin

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Table of Contents (15) Chapters

Preface

1. Section 1: Fundamentals of High-Performance Embedded Systems

2. Chapter 1: Architecting High-Performance Embedded Systems FREE CHAPTER

3. Chapter 2: Sensing the World

4. Chapter 3: Operating in Real Time

5. Section 2: Designing and Constructing High-Performance Embedded Systems

6. Chapter 4: Developing Your First FPGA Program

7. Chapter 5: Implementing systems with FPGAs

8. Chapter 6: Designing Circuits with KiCad

9. Chapter 7: Building High-Performance Digital Circuits

10. Section 3: Implementing and Testing Real-Time Firmware

11. Chapter 8: Bringing Up the Board for the First Time

12. Chapter 9: The Firmware Development Process

13. Chapter 10: Testing and Debugging the Embedded System

14. Other Books You May Enjoy

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Understanding key RTOS features and challenges

Several standard capabilities are included in most of the RTOS implementations that are in wide use today. Some of these features enable efficient communication among tasks in a manner consistent with real-time operation. While common, not all of the following features are universally available in all RTOSes.

Mutexes

A mutex, which stands for mutual exclusion, is a mechanism for managing access to a shared resource among tasks. A mutex is conceptually identical to a global variable that can be read and written by all tasks. The variable has the value 1 when the shared resource is free, and 0 when it is in use by a task. When a task needs to gain access to the resource, it reads the variable and, if it is free, with the value 1, sets it to 0 to indicate the mutex is owned by a task. The task is then free to interact with the resource. When the interaction is complete, the task sets the mutex to 1, thereby releasing ownership.

If...