High-fidelity simulations of dynamic embedded systems can be invaluable. This follow-up to “Modeling Dynamic Systems” (August 2000) presents some techniques and algorithms you might find useful. In a ...

As embedded systems hardware is becoming more powerful, the demand for high quality, sophisticated and compelling applications is increasing. In addition to that, due to fierce competition in the ...

1) EMSIM-1.0, which only simulates arm-linux- 2.2.2, is no longer available for download 2) EMSIM-2.0 has been undergoing continuous improvement. Please check this ...

Firmware engineers are always blamed for late deliveries. It’s almost tradition. The hardware’s ready, management is anxious, and the software team is “still debugging.” But let’s be honest. Firmware ...

The basic ideas behind continuous testing and integration include: provide faster feedback to developers; build and test the system piece by piece to avoid big-bang integration and big failure; assess ...

Wind River will showcase how to reliably design, deploy, and scale intelligent embedded systems at the Edge, with live demos ...

Teams developing firmware and embedded software often develop their software on-target. While there isn’t necessarily anything wrong with using a development board to understand the processor, ...

Tools for debugging embedded systems range from software monitors and simulators, which are independent of the hardware under development, to custom silicon for in-circuit emulation, which replaces ...

The design of embedded systems realised in System-on-Chip (SoC) form is increasingly turning to the use of configurable and extensible processors. Such designs start at a high level of abstraction, ...