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Is anybody using the .NET profiler made by yourkit? I am looking for a good .NET profiler and stumbled upon the yourkit one. As I would purchase a single person license, it would cost 79 EUR for me, which is pretty ok imho. What I also like: the more or less easy to use and friendly GUI.

But I am not very experienced in profiling .NET applications, so I wonder if yourkit .NET profiler gets the job done. Yourkit seems to be pretty well known in the Java world, though.

Any opinions?

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Eqatec make a free .Net profiler (eqatec.com/tools/profiler) if cost is an issue. Never tried it though, so cannot comment on how good it is. – adrianbanks Oct 5 '09 at 13:23
    
I gave that one a short try, but the yourkit profiler seems easier to work with. I dont mind paying for the software, however the probably best profiler (as read on Stackoverflow) from redgate is too expensive for me. So less then 100 Euro would be ok. – Max Oct 5 '09 at 13:30
    
The best profiler for .net by far is F1 which is in Visual Studio team system. I have used redgate extensively and have found it to be mostly useless for profiling any hard perf problems. Its lack of kernel information about things like context and thread switches makes it difficult to work with complex threaded apps. – Steve Oct 13 '09 at 23:56
    
Hm, too bad, I only have VS Professional Edition available. Interesting information about the redgate one though. – Max Oct 14 '09 at 3:26
up vote 1 down vote accepted

Opinion? Yeah. While you're deciding which profiler to buy or not, give this a try.

ADDED: @Max: Step-by-step instructions: The IDE has a "pause" button. Run your app under the IDE, and while it is being subjectively slow, i.e. while you are waiting for it, hit the "pause" button. Then get a snapshot of the call stack.

To snapshot the call stack, what I do is display it (that's one of the debug windows). In the IDE options you can find options for what to display in the stack view. I turn off the option to display the function arguments, because that makes the lines too long. I'm interested in the line number where the call takes place and the name of the function being called. Then, in the call stack view, you can do a "Select All" and then a "Copy", and then paste it into Notepad. It's a little clumsy, I know, but I used to write them down by hand.

I take a few samples this way. Then I look at them for lines that appear on more than one sample, because those are the time-takers. Some are simply necessary, like "call main", but some are not. Those are the gold nuggets. If I don't find any, I keep taking samples, up to about 20. If I still don't find any (very unusual) by that time the program is pretty well optimized. (A key point is that every time you do this the program gets faster, and in the process the remaining performance problems get relatively bigger & easier to find. I.e. not only does the program get faster by a certain ratio R, but the remaining problems get bigger, percentage-wise, by that same ratio.)*

Another thing I do in this process is ask myself what the program is doing and why in that sample. The "why" is very important, because that is how you tell if a line is actually necessary or could be replaced with something less costly. If I'm not sure why it is there, I single-step it a little, maybe look at the data, or maybe let it return up a few levels (shift-F11) until I understand what it's doing. That's about all there is to it.

Existing profilers could help with this process if they actually perform stack sampling, retain the samples, rank lines by what percent of samples contain them, and then let you study individual samples in detail. Maybe they will at some time, but they don't now. They are hung up on issues like efficiency and measurement.

*Suppose your code spends 90% of its time doing X, and 9% of its time doing Y, both not really necessary. Take a small number of samples, and you will see X, but probably not Y. If you fix X you get a 10x speedup. Do the sampling again (you may have to wrap an outer loop around the program so you can take samples). Now you see Y with certainty because now it takes 9% x 10x = 90%. Fixing it gives you another 10x, for overall 100x speedup.

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Somebody gave me a drive-by. That's evidence that it's controversial. Here's another explanation: stackoverflow.com/questions/406760/… – Mike Dunlavey Oct 14 '09 at 16:07
    
Your way sounds interesting but to be honest I am not quite sure about how to do this using C# and Visual Studio 2008 (in short: I did not understand it yet). Any "step-by-step" instruction on this? – Max Oct 17 '09 at 13:38
    
@Max: I answered above. – Mike Dunlavey Oct 17 '09 at 15:02
    
Now thats an interesting way of optimization / measuring. Never saw or heard something like this. But it sounds very interesting, I will try it out! Thank you for your thorough explanation! – Max Oct 28 '09 at 10:26
    
@Max. You're welcome. Part of the mind-set of that method is that precise measurement need not be a prerequisite to finding things to optimize. The targets are large and at close range. Good luck. – Mike Dunlavey Oct 28 '09 at 12:40

Disclaimer: my suggestion is based on the assumption that you are serious about performance profiling, and would like to find out the accurate % improvement of your tuning effort.

Based on my experience with performance profilers like ANTS and DotTrace, I think they are useful while all fail at one point or another.

The problem with general purpose performance profilers is they add too much overhead and render the result inaccurate. But they do however, a good job at finding heavy operations. When you use a profiler and find an operation taking 40% of the total process time, does it actually take 40%? Maybe not. But it probably does take a lot of time to run.

So to answer your question, it doesn't matter whether yourkit is "excellent" or "satisfactory", unless it sucks so bad that you hear horrible stories about it. Because it is going to give you a big picture of performance bottlenecks in your app. Giving you an idea where to insert your own time logging instructions to find out the actual performance profile of your application.

PS. I would also suggest you take a read about performance profiling, which would give you an overall understanding of the concept and help understand other people's suggestions.

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@Bill: I would suggest being serious about performance improvement does not require accurate a priori measurement of the gain to be achieved, because it can be measured accurately a posteriori. Nor is it important that the method have minimal impact on performance (witness ValGrind). What is important is that it locate problems quickly and precisely. Profilers do not yet do that (though they could). – Mike Dunlavey Oct 27 '09 at 0:03
    
@Mike: I agree that it is important to find the problem quickly. But I'm sort of lost on your priori/posteriori argument, do you mean that performance improvement is posteriori knowledge rather than priori knowledge? In which case I do agree, and that's what I'm proposing. – Bill Yang Oct 27 '09 at 5:44
    
@Bill: For example, suppose there is a function call instruction that happens to be on the stack exactly 50% of the time (so that is exactly what it costs). Suppose you take 5 random stack samples. You could see it on 0 samples (very unlikely), 1 sample (unlikely) 2 samples (estimating 40%), 3 (estimating 60%), 4 (unlikely), or 5 (very unlikely). So you know precisely where it is, and fixing it will give you up to 50% reduction, even though you didn't know ahead of time exactly how much it would save you. Does that help? – Mike Dunlavey Oct 27 '09 at 16:35
    
... So the samples did not measure the problem exactly, but they did locate it exactly. If you need more precise measurement of the speedup, you can always time it before/after fixing it. 100s of samples were not needed. The speed of taking a sample was irrelevant. You can take a sample and look at it all day before taking another - it will not affect the results. – Mike Dunlavey Oct 27 '09 at 16:41
    
... I am totally mystified that such an unbelievably simple concept is understood by so few. – Mike Dunlavey Oct 27 '09 at 17:00

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