The rule of thumb in embedded system design has been that addinghardware increases power demands. The careful use of hardwareaccelerators, however, inverts the rule: adding hardware can reducepower.

Embedded TDD tests the logic that sits on top of your hardware and could reveal bad logic, with no hardware to muddy the ...

Modern embedded systems are expected to operate with predictable timing, continuous reliability, and near-instantaneous response under increasingly complex workloads. From automotive control units and ...

How embedded AI hardware reliability is handled in the defense and aerospace fields. How that reliability is assured and tested. With artificial intelligence progressing into areas as diverse as ...

All electronic systems carry the possibility of failure. An embedded system has intrinsic intelligence that facilitates the possibility of predicting failure and mitigating its effects. This two-part ...

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.

Bridging Hardware And Software: Advancing Smart Tech Through Embedded Systems And Automation As we progress, technology is becoming smarter, faster, and more efficient. Advancements such as embedded ...

Every good hardware or software design starts with a structured approach throughout the design cycle, but as chip architectures and applications begin focusing on specific domains and include some ...

In previous articles, we looked at how to configure the kernel as well as the key components of an embedded operating system (OS). This new article focuses on the hardware components of embedded Linux ...

Editor's Note: Linux remains an attractive option for embedded systems developers. In fact, industry surveys such as the Embedded Market Study by UBM (EDN's parent company) consistently show interest ...