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I have a large (500K lines) .NET CF (C#) program, running on CE6/.NET CF 3.5 (v.3.5.10181.0). This is running on a FreeScale i.Mx31 (ARM) @ 400MHz. It has 128MB RAM, with ~80MB available to applications. My app is the only significant one running (this is a dedicated, embedded system). Managed memory in use (as reported by GC.Collect) is about 18MB. To give a better idea of the app size, here's some stats culled from .NET CF Remote Performance Monitor after staring up the application:

 Garbage Collections            131 
 Bytes Collected by GC          97,919,260
 Managed Bytes in use after GC  17,774,992
 Total Bytes in use after GC    24,117,424
 GC Compactions                 41
 Native Bytes Jitted:           10,274,820
 Classes Loaded                 7,393
 Methods Loaded                 27,691

Recently, I have been trying to track down a performance problem. I found that my benchmark after running the app in two different startup configurations would run in approximately 2 seconds (slow case) vs. 1 second (fast case). In the slow case, the time for the benchmark could change randomly from EXE run to EXE run from 1.1 to 2 seconds, but for any given EXE run, would not change for the life of the application. In other words, you could re-run the benchmark and the time for the test stays the same until you restart the EXE, at which point a new time is established and consistent.

I could not explain the 1.1 to 2x slowdown via any conventional mechanism, or by narrowing the slowdown to any particular part of the benchmark code. It appeared that the overall process was just running slower, almost like a thread was spinning and taking away some of "my" CPU.

Then, I randomly discovered that just by switching away from my app (the GUI loses the foreground) to another app, my performance issue disappears. It stays gone even after returning my app to the foreground. I now have a tentative workaround where my app after startup launches an auxiliary app with a 1x1 size window that kills itself after 5ms. Thus the aux app takes the foreground, then relinquishes it.

The question is, why does this speed up my application?

I know that code gets pitched when a .NET CF app loses the foreground. I also notice that when performing a "GC Heap" capture with .NET CF Remote Performance Monitor, a Code Pitch is logged -- and this also triggers the performance improvement in my app. So I suspect somehow that code pitching is related or even responsible for fixing performance. But I'm at a loss as to figure out how to determine if that is really the case, or even to explain why pitching code could help in this way. Does pitching out lots of code somehow significantly help locality of reference of code pages (that are re-JITted, presumably near each other in memory) enough to help this much? (My benchmark spans probably 3 dozen routines and hundreds of lines of code.)

Most importantly, what can I do in my app to reliably avoid this slower condition. Any pointers to relevant .NET CF / JIT / Code pitching information would be greatly appreciated.

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3 Answers 3

Your app going to the background auto-triggers a GC.Collect, which collects, may compact the GC Heap and may pitch code. Have you checked to see if a manual GC.Collect without going to the background gives the same behavior? It might not be pitching that's giving the perf gain, it might be collection or compaction. If a significant number of dead roots are swept up, walking the root tree may be getting faster. Can't say I've specifically seen this issue, so this is all conjecture.

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The app behavior is not affected by calls to System.GC.Collect. I make that call manually before the benchmark to ensure that I don't get a GC during the test which affects my timing. The behavior seems to persist through multiple GC cycles, including compaction. –  Wil S Mar 9 '12 at 23:00
You've probably tried, but how about calling GC.Collect, snapshot, send to back, snapshot, bring to fore, snapshot. Is there a large change from after GC to going to the background (i.e. more objects collected, etc)? Just trying to pinpoint it to a compaction. –  ctacke Mar 9 '12 at 23:13
Oh, and you can infer from the last comment that GC performance shouldn't be a factor in the benchmark, as GC does not run during the benchmark due to my prior running of GC. –  Wil S Mar 9 '12 at 23:25
I take it by snapshot you mean a NETCF RPM GC Heap snapshot? I've not tried that, but I will do. It will take me a few minutes. –  Wil S Mar 9 '12 at 23:26
Oops. I think you mush mean snapshot the counters, not the heap... –  Wil S Mar 9 '12 at 23:38

Send your app a wm_hibernate before your performance loop. Will clean up things

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WM_HIBERNATE (0x3FF) does seem to trigger code pitch, but oddly only if the message is sent (call of SendMessage is) from the GUI thread. So I have to Invoke over to the GUI thread before sending the message. Thanks for the tip. –  Wil S Apr 4 '12 at 21:40

We have a similar issue with our .NET CF application.

Over time, our application progressively slows down, eventually to a halt with what I anticipate is due to high CPU load, or as @wil-s says, as if thread is spinning consuming CPU. The only assumption / conclusion I've made to so far is either we have a rogue thread in our code, or there's an under the cover issue in .NET CF, maybe with the JITter.

Closing the application and re-launching returns our application to normal expected performance.

I am yet to implement code change to test issuing WM_HIBERNATE or launch a dummy app which quits itself (as above) to force a code pitch, but am fairly sure this will resolve our issue based on the above comments. (so many thanks for that)

However, I'm subsequently interested to know whether a root cause was ever found to this specific issue?

Incidentally and seemingly off topic (but bear with me), we're using a Freescale i.MX28 processor and are experiencing unpredictable FlashDisk corruption. Seeing 2K blocks of 0xFFs (erased blocks) in random files located on NAND Flash.

I'm mentioning this as I now believe the CPU and FlashDisk corruption issues are linked, due to this article as well as this one: http://electronics.stackexchange.com/questions/26720/flash-memory-corruption-due-to-electricals

In the article, @jwygralak67 comments:

I recently worked through a flash corruption issue, on a WinCE system, as part of a development team. We would sporadically find 2K blocks of flash that were erased. (All bytes 0xFF) For about 6 months we tested everything from ESD, to dirty power to EMI and RFI interference, we bought brand new devices and tracked usage to make sure we weren't exceeding the erase cycle limit and buring out blocks, we went through our (application level) software with a fine toothed comb.

In the end it turned out to be an obscure bug in the very low level flash driver code, which only occurred under periods of heavy CPU load. The driver came from a 3rd party. We informed them of the issue we found, but I don't know if they ever released a patch.

Unfortunately, we're yet to make contact with him.

With all of this in mind, potentially if we work around the high CPU load, maybe the corruption will no longer be present. Another conjecture case! On that assumption however, this doesn't give a firm root cause for either situation, which I'm desperately seeking!

Any knowledge or insight, however small, would be very gratefully received.

@ctacke - we've spoken before regarding OpenNETCF via email, so I'm pleased to see your name!

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What filesystem are you using that is getting corrupted? We have had very reliable service from YAFFS. Beware the WM_HIBERNATE workaround discussed if porting to WEC2013 - it will randomly crash your .NETCF application. But it also may not be necessary on WEC2013/.NETCF 3.9 - I don't know yet. –  Wil S 2 hours ago

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