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I know this is not so much a programming question but it is relevant.

I work on a fairly large cross platform project. On Windows I use VC++ 2008. On Linux I use gcc. There are around 40k files in the project. Windows is 10x to 40x slower than Linux at compiling and linking the same project. How can I fix that?

A single change incremental build 20 seconds on Linux and > 3 mins on Windows. Why? I can even install the 'gold' linker in Linux and get that time down to 7 seconds.

Similarly git is 10x to 40x faster on Linux than Windows.

In the git case it's possible git is not using Windows in the optimal way but VC++? You'd think Microsoft would want to make their own developers as productive as possible and faster compilation would go a long way toward that. Maybe they are trying to encourage developers into C#?

As simple test, find a folder with lots of subfolders and do a simple

dir /s > c:\list.txt

on Windows. Do it twice and time the second run so it runs from the cache. Copy the files to Linux and do the equivalent 2 runs and time the second run.

ls -R > /tmp/list.txt

I have 2 workstations with the exact same specs. HP Z600s with 12gig of ram, 8 cores at 3.0ghz. On a folder with ~400k files Windows takes 40seconds, Linux takes < 1 second.

Is there a registry setting I can set to speed up Windows? What gives?

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I don't know the why, but this is a known difference in the performance characteristics of Windows and Linux, Linux is WAY better than windows at dealing with loads of files in a single directory, possibly it's just NTFS vs ext4/whatever? Could also be that the Windows equivalent of Linux's dentry cache just isn't as good. –  Spudd86 Aug 2 '11 at 17:54
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Why was this closed? "Not being constructive" ??! I find it quite relevant for developers. –  Nils Nov 16 '11 at 20:13
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@HalilÖzgür: OK, your comment prompted me to look at the revision history - the original question title was asking something like that. That may very well have been the reason (I didn't vote to close), because there was a post by someone clearly offended by the original title and started raging, which was then deleted, leading to this question's closure. The title has been edited since, so I think we're good to go. Reopened. Bear in mind that you should still try not to discuss the question... since the OP is looking for answers, provide answers, nothing else. –  BoltClock Dec 19 '11 at 9:22
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It would be awesome to see someone like @raymond-chen chime in with some insights - if the question stays technical and offers clear enough data/facts to reproduce the issue. –  Benjamin Podszun Dec 19 '11 at 11:24
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One thing that springs to mind is that NTFS sorts the files returned by querying directories by name. This requires that they are all fetched before returning anything. This in turn hinders efficient streaming of the work as most work in the FS is done up-front without even the option of doing client work on the files in parallel already (e.g. compiling). This is a detail that won't change for compatibility reasons, though. –  Joey Dec 19 '11 at 12:15

11 Answers 11

Unless a hardcore Windows systems hacker comes along, you're not going to get more than partisan comments (which I won't do) and speculation (which is what I'm going to try).

  1. File system - You should try the same operations (including the dir) on the same filesystem. I came across this which benchmarks a few filesystems for various parameters.

  2. Caching. I once tried to run a compilation on Linux on a RAM disk and found that it was slower than running it on disk thanks to the way the kernel takes care of caching. This is a solid selling point for Linux and might be the reason why the performance is so different.

  3. Bad dependency specifications on Windows. Maybe the chromium dependency specifications for Windows are not as correct as for Linux. This might result in unnecessary compilations when you make a small change. You might be able to validate this using the same compiler toolchain on Windows.

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Could you elaborate a bit on #2? It's quite surprising -- is it because the kernel doesn't cache data on the RAM disk or something? –  Mehrdad Dec 22 '11 at 19:09
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If you allocate a piece of a memory as a ramdisk, it's not available to the kernel for caching or use for anything else. In effect, you're wringing its hand and forcing it to use less memory for its own algorithms. My knowledge is empirical. I lost performance when I used a RAMdisk for compilations. –  Noufal Ibrahim Dec 22 '11 at 19:21
    
That's quite interesting, thanks for sharing it! –  Mehrdad Dec 22 '11 at 19:23
    
You're welcome. –  Noufal Ibrahim Dec 22 '11 at 19:24
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"Unless [an expert on a specific topic] comes along, you're not going to get more than partisan comments ... and speculation": how is that different than any other question? –  Dolph Nov 7 '12 at 17:39

NTFS saves file access time everytime. You can try disabling it: "fsutil behavior set disablelastaccess 1" (restart)

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Testing that shaved 4 seconds down from the previous 36. Still abominable compared to .6 seconds on my linux VM –  b7kich Dec 22 '11 at 16:42
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+1 for a concrete filesystem suggestion. –  Noufal Ibrahim Dec 24 '11 at 6:50

I personally found running a windows virtual machine on linux managed to remove a great deal of the IO slowness in windows, likely because the linux vm was doing lots of caching that Windows itself was not.

Doing that I was able to speed up compile times of a large (250Kloc) C++ project I was working on from something like 15 minutes to about 6 minutes.

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seriously? You mean i should give it a trial to use a VM as dev maschine? Sounds odd... what VM do you use? –  Martin Booka Weser Dec 19 '11 at 22:01
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I tested the scenario above with a Ubuntu 11.04 VM running inside my windows 7 workstation. 0.6 sec for the linux VM, 36 sec for my windows workstation –  b7kich Dec 19 '11 at 22:19
    
Wow, this is very interesting... –  Halil Özgür Dec 20 '11 at 6:54
    
What VM did you use? Xen? –  kristianp Apr 6 '12 at 1:42
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If you use virtualbox and set up a shared drive you can essentially speed up your compilations for free. –  nightcracker Jan 15 '13 at 11:56

The issue with visual c++ is, as far I can tell, that it is not a priority for the compiler team to optimize this scenario. Their solution is that you use their precompiled header feature. This is what windows specific projects have done. It is not portable, but it works.

Furthermore, on windows you typically have virus scanners, as well as system restore and search tools that can ruin your build times completely if they monitor your buid folder for you. windows 7 resouce monitor can help you spot it. I have a reply here with some further tips for optimizing vc++ build times if you're really interested.

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A few ideas:

  1. Disable 8.3 names. This can be a big factor on drives with a large number of files and a relatively small number of folders: fsutil behavior set disable8dot3 1
  2. Use more folders. In my experience, NTFS starts to slow down with more than about 1000 files per folder.
  3. Enable parallel builds with MSBuild; just add the "/m" switch, and it will automatically start one copy of MSBuild per CPU core.
  4. Put your files on an SSD -- helps hugely for random I/O.
  5. If your average file size is much greater than 4KB, consider rebuilding the filesystem with a larger cluster size that corresponds roughly to your average file size.
  6. Make sure the files have been defragmented. Fragmented files cause lots of disk seeks, which can cost you a factor of 40+ in throughput. Use the "contig" utility from sysinternals, or the built-in Windows defragmenter.
  7. If your average file size is small, and the partition you're on is relatively full, it's possible that you are running with a fragmented MFT, which is bad for performance. Also, files smaller than 1K are stored directly in the MFT. The "contig" utility mentioned above can help, or you may need to increase the MFT size. The following command will double it, to 25% of the volume: fsutil behavior set mftzone 2 Change the last number to 3 or 4 to increase the size by additional 12.5% increments. After running the command, reboot and then create the filesystem.
  8. Disable last access time: fsutil behavior set disablelastaccess 1
  9. Disable the indexing service
  10. Disable your anti-virus and anti-spyware software, or at least set the relevant folders to be ignored.
  11. Put your files on a different physical drive from the OS and the paging file. Using a separate physical drive allows Windows to use parallel I/Os to both drives.
  12. Have a look at your compiler flags. The Windows C++ compiler has a ton of options; make sure you're only using the ones you really need.
  13. Try increasing the amount of memory the OS uses for paged-pool buffers (make sure you have enough RAM first): fsutil behavior set memoryusage 2
  14. Check the Windows error log to make sure you aren't experiencing occasional disk errors.
  15. Have a look at Physical Disk related performance counters to see how busy your disks are. High queue lengths or long times per transfer are bad signs.
  16. The first 30% of disk partitions is much faster than the rest of the disk in terms of raw transfer time. Narrower partitions also help minimize seek times.
  17. Are you using RAID? If so, you may need to optimize your choice of RAID type (RAID-5 is bad for write-heavy operations like compiling)
  18. Disable any services that you don't need
  19. Defragment folders: copy all files to another drive (just the files), delete the original files, copy all folders to another drive (just the empty folders), then delete the original folders, defragment the original drive, copy the folder structure back first, then copy the files. When Windows builds large folders one file at a time, the folders end up being fragmented and slow. ("contig" should help here, too)
  20. If you are I/O bound and have CPU cycles to spare, try turning disk compression ON. It can provide some significant speedups for highly compressible files (like source code), with some cost in CPU.
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Even if you did all these things, you wouldn't come close to the Linux perfomance. Give the test below a try and and post your timing if you disagree. –  b7kich Dec 30 '11 at 20:54
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We need a better benchmark. Measuring the time it takes to enumerate a folder is not a very useful, IMO. NTFS is optimized for single-file lookup times, with a btree structure. In Linux (last I looked), an app can read an entire folder with a single system call, and iterate through the resulting structure entirely in user code; Windows requires a separate sys call for each file. Either way, compilers shouldn't need to read the entire folder.... –  RickNZ Dec 31 '11 at 3:00
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Then what you're describing is precisely the problem. Picking a different benchmark doesn't solve the issue - you're just looking away. –  b7kich Dec 31 '11 at 12:03
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The question was about optimizing compile times. Folder enumeration times do not dominate compilation times on Windows, even with tens of thousands of files in a folder. –  RickNZ Dec 31 '11 at 12:38
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After making some of the changes suggested above, the second run of "ls -R" for the chromium tree takes 4.3 seconds for me (vs 40 seconds in the OP). "dir /s" takes about a second. Switching to an SSD didn't help for enumeration alone, but I suspect it will help for compiles. –  RickNZ Dec 30 '12 at 2:16

The real reason is cultural, not technical.

  1. Unix tends towards many small files; Windows tends towards a few (or a single) big file.

    Unix applications tend to deal with many small files. Think of a software development environment: many small source files, each with their own purpose. The final stage (linking) does create one big file but that is an amazing ration.

    As a result, Unix has highly optimized system calls for opening and closing files, scanning directories, and so on. The history of Unix research papers spans decades of file system optimizations that put a lot of thought into improving directory access (lookups and full-directory scans), initial file opening, and so on.

    Windows applications tend to open one big file, hold it open for a long time, close it when done. Think of MS-Word. msword.exe (or whatever) opens the file once and appends for hours, updates internal blocks, and so on. The value of optimizing the opening of the file would be wasted time.

    The history of Windows benchmarking and optimization has been on how fast one can read or write long files. That's what gets optimized.

    Sadly software development has trended towards the first situation. Heck, the best word processing system for Unix (TeX/LaTeX) encourages you to put each chapter in a different file and #include them all together.

  2. Unix is focused on high performance; Windows is focused on user experience

    Unix started in the server room: no user interface. The only thing users see is speed. Therefore, speed is a priority.

    Windows started on the desktop: Users only care about what they see, and they see the UI. Therefore, more energy is spent on improving the UI than performance.

  3. The Windows ecosystem depends on planned obsolescence. Why optimize software when new hardware is just a year or two away?

    I don't believe in conspiracy theories but if I did, I would point out that in the Windows culture there are fewer incentives to improve performance. Windows business models depends on people buying new machines like clockwork. (That's why the stock price of thousands of companies is affected if MS ships an operating system late or if Intel misses a chip release date.). This means that there is an incentive to solve performance problems by telling people to buy new hardware; not by improving the real problem: slow operating systems. Unix comes from academia where the budget is tight and you can get your PhD by inventing a new way to make file systems faster; rarely does someone in academia get points for solving a problem by issuing a purchase order. In Windows there is no conspiracy to keep software slow but the entire ecosystem depends on planned obsolescence.

    Also, as Unix is open source (even when it wasn't, everyone had access to the source) any bored PhD student can read the code and become famous by making it better. That doesn't happen in Windows (MS does have a program that gives academics access to Windows source code, it is rarely taken advantage of). Look at this selection of Unix-related performance papers: http://www.eecs.harvard.edu/margo/papers/ or look up the history of papers by Osterhaus, Henry Spencer, or others. Heck, one of the biggest (and most enjoyable to watch) debates in Unix history was the back and forth between Osterhaus and Selzer http://www.eecs.harvard.edu/margo/papers/usenix95-lfs/supplement/rebuttal.html You don't see that kind of thing happening in the Windows world. You might see vendors one-uping each other, but that seems to be much more rare lately since the innovation seems to all be at the standards body level.

That's how I see it.

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Saying that the reason is "cultural, not technical" doesn't really answer the question. Obviously, there are one or more underlying technical reasons why certain operations are slower on Windows than on Linux. Now, the cultural issues can explain why people made technical decisions that they made; but this is a technical Q&A site. Answers should cover the technical reasons why one system is slower than the other (and what can be done to improve the situation), not unprovable conjectures about culture. –  Brian Campbell Dec 19 '11 at 17:44
    
This doesn't seem to have a lot of technical information. Mostly circumstancial. I think the only way we'll get real technical info is by looking at the differences between the two compilers, build systems, etc etc. –  surfasb Dec 20 '11 at 1:24
    
Windows applications tend to open one big file, hold it open for a long time - Plenty of UNIX apps do this. Servers, my Emacs etc. –  Noufal Ibrahim Dec 20 '11 at 2:33

Incremental linking

If the VC 2008 solution is set up as multiple projects with .lib outputs, you need to set "Use Library Dependency Inputs"; this makes the linker link directly against the .obj files rather than the .lib. (And actually makes it incrementally link.)

Directory traversal performance

It's a bit unfair to compare directory crawling on the original machine with crawling a newly created directory with the same files on another machine. If you want an equivalent test, you should probably make another copy of the directory on the source machine. (It may still be slow, but that could be due to any number of things: disk fragmentation, short file names, background services, etc.) Although I think the perf issues for dir /s have more to do with writing the output than measuring actual file traversal performance. Even dir /s /b > nul is slow on my machine with a huge directory.

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IMHO this is all about disk I/O performance. The order of magnitude suggests a lot of the operations go to disk under Windows whereas they're handled in memory under Linux, i.e. Linux is caching better. Your best option under windows will be to move your files onto a fast disk, server or filesystem. Consider buying an Solid State Drive or moving your files to a ramdisk or fast NFS server.

I ran the directory traversal tests and the results are very close to the compilation times reported, suggesting this has nothing to do with CPU processing times or compiler/linker algorithms at all.

Measured times as suggested above traversing the chromium directory tree:

  • Windows Home Premium 7 (8GB Ram) on NTFS: 32 seconds
  • Ubuntu 11.04 Linux (2GB Ram) on NTFS: 10 seconds
  • Ubuntu 11.04 Linux (2GB Ram) on ext4: 0.6 seconds

For the tests I pulled the chromium sources (both under win/linux)

git clone http://github.com/chromium/chromium.git 
cd chromium
git checkout remotes/origin/trunk 

To measure the time I ran

ls -lR > ../list.txt ; time ls -lR > ../list.txt # bash
dir -Recurse > ../list.txt ; (measure-command { dir -Recurse > ../list.txt }).TotalSeconds  #Powershell

I did turn off access timestamps, my virus scanner and increased the cache manager settings under windows (>2Gb RAM) - all without any noticeable improvements. Fact of the matter is, out of the box Linux performed 50x better than Windows with a quarter of the RAM.

For anybody who wants to contend that the numbers wrong - for whatever reason - please give it a try and post your findings.

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After doing a few of the tuning I describe in my answer for Windows, running the "ls -lR" test above on the chromium tree took 19.4 seconds. If I use "ls -UR" instead (which doesn't get file stats), the time drops to 4.3 seconds. Moving the tree to an SSD didn't speed anything up, since the file data gets cached by the OS after the first run. –  RickNZ Jan 18 '12 at 10:27
    
Thanks for sharing! Despite a solid factor 10 improvement compared to the Windows 7 'out-of-the-box' scenario, that's still a factor 10 worse than Linux/ext4. –  b7kich Jan 19 '12 at 0:44
    
I thought the point of the OP was to improve Windows performance, right? Also, as I posted above, "dir /s" runs in about a second. –  RickNZ Jan 19 '12 at 5:53

I'm pretty sure it's related to the filesystem. I work on a cross-platform project for Linux and Windows where all the code is common except for where platform-dependent code is absolutely necessary. We use Mercurial, not git, so the "Linuxness" of git doesn't apply. Pulling in changes from the central repository takes forever on Windows compared to Linux, but I do have to say that our Windows 7 machines do a lot better than the Windows XP ones. Compiling the code after that is even worse on VS 2008. It's not just hg; CMake runs a lot slower on Windows as well, and both of these tools use the file system more than anything else.

The problem is so bad that most of our developers that work in a Windows environment don't even bother doing incremental builds anymore - they find that doing a unity build instead is faster.

Incidentally, if you want to dramatically increase compilation speed in Windows, I'd suggest the aforementioned unity build. It's a pain to implement correctly in the build system (I did it for our team in CMake), but once done automagically speeds things up for our continuous integration servers. Depending on how many binaries your build system is spitting out, you can get 1 to 2 orders of magnitude improvement. Your mileage may vary. In our case I think it sped up the Linux builds threefold and the Windows one by about a factor of 10, but we have a lot of shared libraries and executables (which decreases the advantages of a unity build).

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Try using jom instead of nmake

Get it here: http://qt.gitorious.org/qt-labs/jom

The fact is that nmake is using only one of your cores, jom is a clone of nmake that make uses of multicore processors.

GNU make do that out-of-the-box thanks to the -j option, that might be a reason of its speed vs the Microsoft nmake.

jom works by executing in parallel different make commands on different processors/cores. Try yourself an feel the difference!

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How do you build your large cross platform project? If you are using common makefiles for Linux and Windows you could easily degrade windows performance by a factor of 10 if the makefiles are not designed to be fast on Windows.

I just fixed some makefiles of a cross platform project using common (GNU) makefiles for Linux and Windows. Make is starting a sh.exe process for each line of a recipe causing the performance difference between Windows and Linux!

According to the GNU make documentation

.ONESHELL:

should solve the issue, but this feature is (currently) not supported for Windows make. So rewriting the recipes to be on single logical lines (e.g. by adding ;\ or \ at the end of the current editor lines) worked very well!

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protected by Mehrdad Dec 25 '11 at 6:39

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