Embedded Linux Device Drivers: Mastering Hardware Configuration
Embedded Linux remains the operating system of choice for a vast majority of modern embedded solutions. Its modular architecture, extensive community support, and proven scalability make it indispensable for the rapidly evolving Internet of Things (IoT) landscape.
In Mastering Embedded Linux Programming – Second Edition, author Chris Simmonds walks readers through every layer of the system, from device tree parsing to low‑level driver development. The book’s step‑by‑step examples demonstrate how to uncover hardware configurations, integrate custom peripherals, and optimize performance for real‑world applications.
Engineers who gain fluency in embedded Linux gain the ability to accelerate product development, reduce time‑to‑market, and deliver reliable, high‑performance solutions across a spectrum of industries—from automotive and industrial automation to consumer electronics.
Embedded
- Thyristor Technology: From SCR to TRIAC, GTO, and UJT
- Embedded System Design: Steps, Principles, and Real‑World Applications
- Mastering the Pin Control Subsystem for Linux Device Drivers
- Writing a Kernel Device Driver for Embedded Linux: A Practical Guide
- Embedded Linux Device Drivers: Managing Drivers in User Space
- Embedded Linux Device Drivers: Runtime State Monitoring
- Embedded Linux Device Drivers: Roles, Runtime Insights, and Development Guidance
- Embedded Hardware Hacking for IoT Devices: Tools, Techniques, and Business Implications
- Secure Linux Solutions for the Intelligent Edge: Expert Webinar
- Embedded Software Reshapes Hardware Supply Chains for Greater Agility