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How does the .NET Micro Framework with a development board compare to something like an Arduino, or Nintendo DS for starting with embedded programming?

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Honestly, if I were you (which I'm not, by the way), I'd stick it out and avoid the high-level abstraction of the .NET platform for an embedded system. The way I learned was via a college course where I was first introduced to embedded systems concepts on a SunROM kit (similar to an Arduino board, and also containing an ATmega32 MCU) in AVR assembly language, and then re-taught the concepts in C. Having the brief technical understanding of .NET that I do, I feel that there is just too much arbitrary abstraction in the platform for it to be a very wise choice. (Of course, part of this is also my hatred for .NET and Java in general, and especially when used in embedded systems programming, so take my biased opinion with a grain of salt.)

Embedded software should (in my opinion) be able to take advantage of the platform it runs on to run as quickly and efficiently as possible, instead of being made more abstract to run on as many different machines as possible. Instead of the software development kit being dumbed-down, making the programs slower or adding unnecessary complexity, I think that you should learn the concepts and implementation from the ground up, so you have a better working knowledge of what a "System.Watchdog" really is before you start misusing one.

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All of the other answers are excellent, but I would just like to add that for a beginner, a framework such as .NET Micro might abstract away some very important concepts; it might get you too removed from your hardware. The joy (and real skill) of embedded programming comes in exploiting the hardware and architecture of your microcontroller. If you're using a framework as an abstraction layer on top of the hardware, then you won't really get the basic concepts that are important for embedded programming.

I say give it a go using C and assembly first, interacting directly with the hardware so that you get a good feel for what those frameworks are doing underneath. When you get comfortable with that then you might choose to move to a framework (but at that point... probably not :P)

But then again, if your goal is not to learn but to simply accomplish, then a framework can help you get that done much quicker, because you won't need to understand the inner workings. But where's the fun in that?

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Netduino looks very cool. And it's only 30 USD. And the Plus version with Ethernet.

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just found that too.. Looks interesting for some projects. – kenny Sep 26 '10 at 23:13
There's also a "micro" version that's pin-compatible with the Parallax BASIC Stamp 2. Very neat stuff. – Mark Dec 28 '10 at 16:35

The .NET Micro Framework is targeted for embedded systems that contain a powerful processor (currently ARM7, ARM9 and Blackfin).

The Arduino board is based on an 8-bit AVR microcontroller for which the .NET Micro Framework isn't even available. Consider for example the memory requirements of the framework: It is advertised to consume as low as about 300 kB of memory. Arduino has a total of 16 kB of program memory + 1 kB of RAM.

Nintendo DS, on the other hand, is at least technically capable of running the .NET Micro Framework.

If you are interested in embedded programming for hardware such as Arduino, I can assure you that you don't need (and usually can't use) any high level library or an operating system. In fact, you'll find that programming for a small microcontroller will be a joy because everything is very simple and under your total control.

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Actually its 32kb not 300 – Matt Davison Oct 25 '09 at 14:14
My 300 kB claim is based on the Detailed White Paper that is available from this page: It says "The smallest .NET footprint yet (about 300 KB of RAM)". – smt Oct 26 '09 at 11:23

It's true, .NET Micro Framework is totally different. Ethernet, serial ports (UART), SPI, I2C, and GPIOs support are all in one.

And you are using Visual Studio 2008. The best IDE.

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If you are interested in using the .NET micro framework take a look at the tahoe II from

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This answer is a little off-topic, but....

I personally use PICs from They are really inexpensive and have quite a lot of stuff built in with tons of options/versions. While I would love to use .NET Micro, it seems to be developed for higher-end chips that are designed to run OSes. A lot of embedded projects, especially in the communications field need higher end chips ($100+ boards in small quantities), but a lot of good embedded projects are small stuff and only need $2 CPUs. .NET Micro doesn't target those.

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If you're interested in extremely low cost prototyping, it's worth considering the 'Arduino route' but not using an Arduino.

Using a stripboard or breadboard design like a #Shrimp using an ATmega328-PU running an Arduino Uno bootloader can give you nearly the same cost base as a PIC, but maintains compatibility with all the pre-existing Arduino Maker projects which are out there, like...

Based on 100 units, you can get the components for a functioning #Shrimp on a breadboard for as little as £1.70 on stripboard or £2.30 on solderless breadboard in UK terms. For smaller volumes, such as 5 or 10, you're looking at nearer £2.90 and £3.50 respectively, but it's still cheap. A #Shrimp circuit can be made up from a layout diagram in about 10 minutes when you start, and you can get this down to about a minute when you get quick.

Of course, cost is not the only factor to take into account.

You may wish to program in a particular language. For your sketch to run on Arduino, it must be written in C, although you can use pyfirmata for remote-controlling an Arduino-compatible with Python, if you don't mind it being permanently connected to a desktop.

Using a garbage collecting language like C# and the tool support of Visual Studio could be seen as a great benefit in using the .NET Micro Framework, especially for those who already develop in a Microsoft environment. Equally the simplicity of the free and open-source Arduino IDE is presented as a benefit by others.

[Disclosure, I'm a collaborator on the not-for-profit @ShrimpingIt project myself.]

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Also checkout the other way arround: Convert Processing code to run on .NET micro framework

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