In this course, students will design and build a microprocessor-based embedded system project managing real-time constraints while analyzing the system in-order to meet them. Students are expected to ...

This fifth lesson on RTOS finally addresses the real-time aspect of the “Real-Time Operating System” name. Specifically, in the video lesson 26, you add a preemptive, priority-based scheduler to the ...

A real-time system must respect time constraints to ensure that its execution makes functional sense. It must be deterministic, ensuring the execution of system processes a priori. After analyzing the ...

This online engineering specialization will help you elevate your skills from a beginning practitioner to a more advanced real-time system analyst and designer. You will dive deeper into ...

A newly released update to Linux delivers kernel pre-emption, improved scheduling, and a Posix (Portable Operating System Interface for Unix) for enhanced real-time performance. Depending on the ...

Real-time embedded systems are typically constrained in terms of three system performance criteria: space, time, and energy. The performance requirements are directly translated into constraints ...

Dynamic memory allocators for real-time embedded systems need to fulfill three fundamental requirements: bounded worst-case execution time, fast average execution time, and minimal fragmentation.

Embedded systems are increasingly prevalent in nearly every aspect of human life. Innovations made possible by embedded systems are making our lives healthier, safer, cleaner, and more stimulating.

When you combine all these benefits, you’ll find that you can write more-secure and higher-quality software. While embedded developers might hesitate to learn Rust, it’s often called a “zero-cost ...