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.

MITRE launched Embedded Systems Threat Matrix (ESTM), a cybersecurity framework designed for protecting critical embedded ...

Discover the essentials of embedded software and how hardware engineers can efficiently handle software responsibilities.

Embedded systems power the modern world—quietly running inside vehicles, medical devices, industrial controllers, routers, consumer electronics, and countless “smart” products.

Where code meets reality, embedded systems come at that intersection, demanding precision, efficiency, and careful planning.

A certified hypervisor RTOS now enables mixed criticality workloads on multicore embedded hardware, simplifying safety ...

As the move to physical AI speeds up, how do you make sure these capabilities become broadly accessible and not limited to ...

Moore's Law continues to drive chip complexity and performance to new highs, while stressing and periodically “breaking” existing design flows. Fortunately for consumers of electronic design ...

Embedded control systems are increasingly connected to complex local area networks, such as controller area networks (CAN) with up to 100 nodes, ZigBee wireless control networks with thousands of ...

Defining device drivers Discussing the difference between architecture-specific and board-specific drivers Providing several examples of different types of device drivers Most embedded hardware ...

One of the biggest bottlenecks in the software development process for electronic products is that hardware is not available until late in the cycle. That means embedded software developers need to ...