How microcontrollers and single-board computers coordinate high-speed RF acquisition and generation. How SCPI and UART commands let simple controllers use advanced measurements without FPGA ...
"I want to start electronics and embedded systems. But what is the difference between an FPGA and a microcontroller (ESP32)? Which one should I start with?"—I think this is where science students and ...
Abstract: This ground-breaking study introduces a unique method for integrating an Arduino Uno and PYNQ Z2 board to continuously monitor electrocardiogram (ECG) and heart rate variability. The system ...
Abstract: The emergence of edge devices for the Internet of Medical Things (IoMT) has enabled the integration of low-power resource-limited hardware units with communication technologies for smart ...
The Intel 80386 is a rather fascinating slice of computer history. It marked the first 32 bit X86 processor, and was a staple ...
A clock is by its very nature a device for measuring time, and thus it moves forward at a constant rate. But how about in a ...
FPGA seemed difficult, so I avoided it. But after trying it out with the educational board “DE10-Lite”—while I did hit some snags—I felt that “it’s something I’d recommend to beginners”—this is my ...
This project has been alive for almost 20 years (first version was released in 2007.). I open sourced it and put it on GitHub in 2014 after having less and less time to work on it. I put it on GitHub ...
QP/C Real-Time Event Framework/RTOS implements event-driven Active Object (Actor) model combined with Hierarchical State Machines. Specifically designed for embedded systems (e.g., ARM Cortex-M MCUs).
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