Real-time operating systems (RTOS) and Linux each bring their own advantages for embedded-systems designers. With an RTOS, designers can build deterministic multi-threaded applications with low memory ...

The Linux kernel provides support for memory management, interprocess communication mechanisms, interrupt management, and TCP / IP networking. The directory structure separates architecture-dependent ...

Configuration is the first step in building a kernel. There are many ways and various options to choose from. The kernel will generate a .config file at the end of the process and generate a series of ...

Claiming the broadest microprocessor support for embedded Linux, the latest release of Bluecat Linux now also supports the MIPs architecture, as well as Pentium, XScale x86-compatible, ARM, StrongARM, ...

CPU architectures in a single system, whether that is a single system-on-chip (SoC) or a larger electronics platform ...

Although Intel provides the greatest user base for Linux, many other architectures are supported. These include ARM, MIPS, PowerPC, Alpha, SPARC and Hitachi. The availability of cheap x86 hardware ...

Increasing numbers of embedded developers are turning to Linux as the preferred software platform to support compute-intensive applications in networking, wireless infrastructure, storage and imaging.

Peridio launched the Avocado OS to meet a growing need for a Linux distribution that enables physical AI teams to move ...

LinuxDevices.com is pleased to announce publication of the latest two members of its highly popular online Embedded Linux Quick Reference Guide series . . . The Embedded Linux Overview Quick Reference ...

Much of the Linux kernel is written in portable C,and a great deal of it is portable to a clean architecture like MIPSwith no further trouble. In the previous Part 4 we looked at the ...