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I want to prototype an embedded MIDI sequencing tool which is controlled with e.g. lighted pushbuttons, potentiomenters etc.

A very important requirement is accurate timing of MIDI events.

What is the right environment for efficiently developing such system? The focus is on software engineering: programming languages, frameworks, IDEs?

I am very familiar with "modern" object-oriented languages (Java, .NET), but they do not seem to be the right tool for developing such system (too slow). Which modern languages are there for soft real-time embedded systems? C, C++, Lua? Model-driven stuff and generation of low-level code? Any opinions?

I already tried .NET Micro Framework (too slow) and experimented with an Arduino (too low-level).

Any opinions, experiences and tips are welcome!

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What is your hardware platform? Will there be GUI on a screen, or is it a character-based LCD? Are commercial tools acceptable, or do you prefer free/open source? You should also be asking/researching about embedded operating systems. Are you comfortable with Linux? –  Emile Cormier Aug 26 '12 at 12:47
    
I would look at a ARM Cortex M3 based development board, code in C. –  TJD Aug 26 '12 at 16:48
    
Everything is to be defined! A simple character-based LCD would suffice for now. Commercial/Free/OS is all ok in general, I want the best and easiest! I am not comfortable with Linux/C/C++ at all - I have much experience with .NET, but I am afraid this is no option here. I like the "high-level" programming approach of .NETMF or LUA and to directly compile to "bare-metal" without an OS. –  Max Aug 26 '12 at 16:51
    
@TJD: which IDE and which additional frameworks/tools would you use? –  Max Aug 26 '12 at 16:54
    
@Max, a good IDE (compiler/debugger) would be IAR, but that would cost some $. You can use Eclipse as a decent free IDE with arm-gcc open source compiler. For OS, I would use freeRTOS or uCOS-II (free for noncommercial use) –  TJD Aug 26 '12 at 16:58

2 Answers 2

Building an embedded system where "everything is to be defined" requires you to get comfortable with Linux/C/C++ fast. You also need to understand your underlying hardware. One does not create real time systems with critical timing requirements without understanding those aspects. Audrino is an example of a typical embedded system which helps you build on top of it and not bother about things such as initial bring up etc. It is usually unlikely that you will find something for your needs out there because of the low levelness of embedded systems.

To be able to get accurate timing you need to be sure you understand your system timers and drivers controlling them. After a point you will have to tweak your kernel settings / other drivers to ensure you are getting maximum performance.

Your threading structure in your application, scheduling algorithm used, memory usage, good cache usage etc are important in squeezing out the last bit of performance from an embedded system [where performance matters]. If the task at hand is simple and the processor is powerful enough to handle it, you may not have to do this. If not, then you have to find ways to do it.

What IDE or programming style you use is immaterial in this scenario. If I were you, I woudn;t bother too much about that. pick one and work with it. You will land up using vim and make on the command line a lot at some point so get comfortable with those. Learn your hardware well because you will face issue that you cannot debug with break points. These will be "real time" issues that you have to debug through thinking and staring at your code becausing putting in debug code will change behaviour.

Welcome to embedded programming.

If you want a good explanation of some of the top level stuff and basics: http://shop.oreilly.com/product/9780596529680.do is a good start

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The figure of merit for a real-time system is the worst case latency between an event occurring and the system processing it.

In your case with MIDI controller as the application you are probably safe at 10ms worst-case latency, but should design for 1ms (remember that traditionally, the transmission rate of a MIDI interface is approximately 1 note-on or note-off event per ms).

This is very a soft real-time requirement and is an easily achieved on just about any hardware running a real-time operating system, or with Linux with preemptive real-time scheduling enabled.

Providing the thread performing the MIDI event processing has real-time scheduling enabled, just about any programming language you choose (including scripting languages) is like to do the job.

However, realistically, you will probably be implanting this system in C or C++.

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