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On a multicore box, the java thread schedulers decisions are rather arbitrary, it assigns thread priorities based on when the thread was created, from which thread it was created etc.

The idea is to run a tuning process using pso that would randomly set thread priorities and then eventually reach optimal priorities where the fitness function is the total run time of the program?

Of course there would be more parameters, like the priorities would shift during the run to find an optimal priority function.

How practical, interesting does the idea sound? and any suggestions. Just some background, ive been programming in java/c/c++ for a few years now with various projects, another alternative would be making a thread scheduler based on this in c, where the default thread scheduler is the OS.

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PSO is well suited for small, fast functions. Doing a full run of a program for each particle for each iteration seems like it would be relatively slow. The upside of it being slow is that you can do more intelligent things between iterations without having that be the bottleneck. Maybe ASA with some sort of crowding metric for exploring the space? –  j flemm Aug 6 '10 at 14:36

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Best way to find out -- start an open source project and see people's usage/reaction.

It sounds very interesting to me -- but I personally don't find it very much useful. Perhaps we're just not at the point where concurrent programming is as prevalent and easy as it could be.

With the promotion of functional programming, I guess the world would move towards avoiding thread synchronization as much as possible (thus making thread scheduling less of an impact in overall performance)

From my personal subjective experience, most performance problems in software can be solved by improving one single bottleneck area that accounts for 90% of the slowdown. This optimizer may help find that out. I am not sure how much the scheduling strategy could improve overall performance, though.

Don't get discouraged, though! I'm just talking out of thin air. It sounds fun, so why not just play with it anyway :)

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Your approach as described is a static approach, i.e. you need to run the program several times, then come up with a scheduling solution, then ship your scheduling information with the program.

The problem is that for most non-trivial programs, their performance will partly depend on the specific data they're working with. Even if you find an optimal way to schedule threads for one data set, there is absolutely no guarantee that it will improve speed on another one. In most cases, running what will be a long and arduous optimization every time they want to do a new release will not be worth it for devs, unless perhaps for large computation efforts (where the programs are likely to be manually tuned and not written in java anyway).

I'd say a self-learning thread scheduler is a nice idea, but you can't treat it as a classical optimization problem here. You either need to be sure that your scheduling order will remain optimal (unlikely) or find an optimization method that works at runtime. And the issue here might be that it wouldn't take much for the overhead of your scheduler to destroy any performance gain you might get.

I think this is a somewhat subjective question, but overall no, don't think it would work.

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