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RTOS and Embedded Linux are used for embedded systems programming. Is Embedded Linux itself an RTOS ? Can anyone list the comparison or difference please?

closed as off-topic by Rowland Shaw, Unihedron, Steve Fallows, artless noise, hichris123 Sep 22 '14 at 23:28

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    An RTOS (real time operating system) is software that has deterministic behavior. Events are handled within a time constraint. Embedded Linux is not an RTOS as events/interrupts are typically handled by deferred procedures or 'bottom half' code which can not guarantee latency. However, there have been RTOS implementations of Linux for embedded Linux. I think Wind River (Intel) ships a version of this. – Peter L. Sep 16 '14 at 16:43
  • "Real time Linux kernel is used. Kernel response is in real time or is deterministic." embeddedcraft.org/embedlinuxdesktoplinux.html – thePiGrepper Apr 14 '16 at 17:19
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    The question is clearly not "about general computing hardware and software", I am voting to reopen (despite its age). – Clifford Jun 4 '16 at 18:45
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    @Clifford someday I would like to see these forceful closing and negative votes ( because the question if off-topic ) go away ! It is absurd to draw a line between on-topic and off-topic and the rude and arrogant moderators sometimes do not even port the topic to a new link for example super-user, but just make a blatant comment, that it is off-topic ! Your answer is great. – infoclogged Apr 12 '17 at 13:08
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Linux is a general-purpose OS (GPOS); its application to embedded systems is usually motivated by the availability of device support, file-systems, network connectivity, and UI support. All these things can be available in an RTOS, but often with less broad support, or at additional cost or integration effort.

Many RTOS are not full OS in the sense that Linux is, in that they comprise of a static link library providing only task scheduling, IPC, synchronisation timing and interrupt services and little more - essentially the scheduling kernel only. Such a library is linked with your application code to produce a single executable that your system boots directly (or via a bootloader). Most RTOS do not directly support the loading and unloading of code dynamically from a file system as you would with Linux - it is all there at start-up and runs until power down.

Critically Linux is not real-time capable. An RTOS provides scheduling guarantees to ensure deterministic behaviour and timely response events and interrupts. In most cases this is through a priority based pre-emptive scheduling algorithm, where the highest priority task ready to run always runs - immediately - pre-empting any lower priority task without a specific yield or relinquishing of the CPU, or completion of a time-slice.

Linux has a number of scheduling options, including a real-time scheduler, but this is at best "soft" real-time - a term I dislike since it is ill-defined, and essentially means real-time, most of the time, but sometimes not. If your application has no need of "hard" real-time, that's fine, but typical latencies in real-time Linux will be in the order of tens or hundreds of microseconds, whereas a typical RTOS real-time kernel can achieve latencies from zero to a few microseconds.

Another issue with embedded Linux is that it needs significant CPU resources, perhaps >200MIPS, 32bit processor, ideally with an MMU, 4Mb of ROM and 16MB of RAM to just about boot (which may take several seconds). An RTOS on the other hand can be up in milliseconds, run in less than 10Kb, on microcontrollers from 8-bit up. This can have a significant impact on system cost for volume production despite being ostensibly "free".

There are larger RTOS products that exhibit some of the features of a GPOS such as dynamic loading, filesystems, networking, GUI (for example, in QNX), and many RTOS provide a POSIX API (usually secondary to their native real-time API) for example VxWorks and again QNX, so that a great deal of code developed for Linux and Unix can be ported relatively easily. These larger more comprehensive RTOS products remain scalable, so that functionality not required is not included. Linux in comparison has far more limited scalability.

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