1. What is the difference between an embedded Operating System and Desktop Operating System?

  2. Is it possible to load an application created in Desktop Operating System in Embedded Operating System?

  3. Say I am creating an application in vc++ and C# to do image processing using Visual Studio and WindowXp Pro is it possible to load the application in an embedded operating System?

closed as primarily opinion-based by Andrew, TemplateRex, Ganesh Sittampalam, froadie, ScottJShea Dec 31 '13 at 19:19

Many good questions generate some degree of opinion based on expert experience, but answers to this question will tend to be almost entirely based on opinions, rather than facts, references, or specific expertise. If this question can be reworded to fit the rules in the help center, please edit the question.


A desktop operating system is a software executive, plus, commonly, user tools designed to run arbitrary software, usually interactive in nature (although not always). It tends (important word, that) to involve heavy resource usage, strong protection mechanisms (both in terms of security and in terms of badly-written applications not trashing other applications and/or the system) and some form of standardization for the user interface.

An embedded operating system runs the spectrum. For large, heavyweight embedded systems the core can be an actual desktop system (like embedded Linux systems, for example). Most embedded operating systems, however, are smaller, use far fewer resources, have, perhaps, fewer (or even no) protection mechanisms and, in many (most?) cases have no particular requirement for user interfaces.

These latter breeds of "operating systems" are often instead called an "executive" (as in "realtime multitasking executive" or RMX) because they are often only what would in desktop systems be called the kernel and only have the features enabled that you need for the usually-fixed set of applications you run in the embedded system. They supply the task switching, interrupt processing and priority schemes and not much else and the rest is supplied by a fixed set of applications that perform the real tasks of the problem domain.

Answering your later edit, whether or not you can run software created for a desktop operating system on an embedded one depends on several factors. If the target embedded system is the same OS that you developed on and has all the features activated that your application uses (e.g. the CLR, using your C# example) then it might be possible to run your app natively. But it's not very likely.

  • Notice that WSE7 and other win 7 or 8 variants are not realtime operting systems. There do exist parties who wrote realtime kernels for it though. However those future limited versions, who have a more granular setup of futures. Often are good enough to run your C# stuff.. For realtime things in general stay away of operating systems, use microcontrollers, PLC's or FPGA's – user613326 Jun 19 '15 at 11:14
  • 2
    You're saying stay away from operating systems and use microcontrollers. This is about the same as "stay away from gasoline and use cars". Microcontrollers can have operating systems. – JUST MY correct OPINION Jun 20 '15 at 7:02
  • At least i provide some difference in the windows domain, couldnt get it from your article. And i just warned people that operating systems have their delays, realtime coding is like kerosine, in contrast to gasoline cars ;) – user613326 Jun 23 '15 at 12:11

What is the difference between an embedded Operating System and Desktop Operating System?

While it is possible to embed a general purpose operating system such as Linux or Windows 7 Embedded, typically embedded systems run a Real-time Operating System (RTOS). These first and foremost support hard-realtime response and scheduling. They are usually very much smaller or at least very much more scalable.

Most often (though not always) an embedded OS is in fact a library that is statically linked with the application code to create a monolithic application image. This differs from a desktop OS that can dynamically load and execute arbitrary application code loaded from a file-system. Obviously Embedded Linux or Windows Embedded do not fall into this category.

A typical RTOS kernel provides only scheduling, synchronisation, and inter-process communication services. Everything else must be provided by the application or by optional or third-party add-on libraries and drivers.

Is it possible to load an application created in Desktop Operating System in Embedded Operating System?

Typically applications for embedded systems are created on a Desktop system by a process known as cross-compilation. Such applications will not run on the development host. Similarly applications targeted to execute on a desktop system will not run on an embedded system unless it is running the same OS and microprocessor architecture. That is to say a Windows 7 desktop application may run on Windows 7 Embedded if the target system has the appropriate resources (for example a GUI application is not much use in a system without a display or a pointing device).

Most often the development host and the embedded target are incompatible, either by OS or hardware architecture, and usually both.

Say I am creating an application in vc++ and C# to do image processing using Visual Studio and WindowXp Pro is it possible to load the application in an embedded operating System?

If the target is running WindowsXP Embedded or Windows 7 Embedded, yes, but otherwise no.

You can also develop using VC++ or C# to target WindowsCE, and C# for .NET Micro for a limited range of non-x86 targets, but in these cases the target executable will not run on the development host other than as a device simulation.

What is the advantage and Disadvantage of both these operating System?

Embedded OS:

  • Scalability
  • Real-time performance (in the case of an RTOS)
  • Broad architecture support
  • Features such as file-systems, networking, GUI, USB, WiFi etc. are usually via add-on options or third-party libraries, and may not be available for all systems, or will need to be implemented or ported by the developer.
  • Many different and largely incompatible systems.

Desktop OS

  • Less scalable
  • Not real-time capable, or limited real-time capability.
  • Broad application support
  • Large body of developers
  • Only three major players, only two of which are embeddable.
  • Wide choice of development languages and tools
  • Extensive standard peripheral hardware, file-system and communications support.
  • Development host and target environment may be the same.

Embedded OSes are designed for other purpose, often controlling certain (non-computer) device or process. Some embedded systems have special requirements, like support for some flavor of real-time processing. You usually do create applications for embedded systems on desktop computer, but you need to use tools that target the embedded OS/hardware (often cross-compilers, etc).


Embedded tends to be simpler in that it has only the software needed to perform the task. The task is usually well defined, although with phones and downloadable apps the rules are changing. Embedded needs to be more reliable, folks tolerate rebooting or replacing a crashed computer but dont tolerate rebooting or replacing their car computer or flight control system for a passenger jet.

Desktop is super generic, needs to run current apps as well as drivers and apps that have yet to be written. Because of the wider features, etc, they are bulkier and less reliable.

Embedded tends to have more limited and static resources, where desktops have much more resources and are dynamic you can keep adding or changing hard drives and memory and video at will and your expectation is it will keep working. With embedded the vendor normally controls all of it and part of the reliability and performance comes from limiting software support to exactly one video driver or a small set of devices across a product line (vs the desktop has to support everything from the 1980's to the present).

It is quite possible to write applications that work in both environments be it a desktop linux vs an embedded linux or desktop windows vs embedded windows. Normally though you should plan for that portability and limit yourself to features that are common to both platforms. If you take any old desktop app and then try to run it on a similar embedded platform I wouldnt expect it to always work, I would expect some tweaking, and in some cases a re-write.


A desktop operating system is an OS designed to run on a desktop computer. It has drivers, optimizations and interfaces (APIs and user interfaces) for desktop use.

An embedded operating system is the same thing but intended for an embedded device.

It might possible to load an application created on a desktop OS on an embedded OS, depending on the application, the OS, the hardware, the development tools used and possibly other factors. But it probably isn't unless the app was designed to cope with the difference.

The advantage of a desktop operating system is that it runs well on desktop hardware. The advantage of an embedded OS is that it runs well on embedded hardware. The disadvantage of both is that they may not scale to other hardware.

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