I have been making some quick tests comparing the performance of some different popular virtualization programs.
This test is far from perfect but I think that at least you can get a basic idea of how all these virtualization techniques perform.
The test was very simple: unpacking the source code of Linux 220.127.116.11 (from a .tar.bz2) and compiling it. I know it’s not an elaborate test but at least it involves both computation and I/O so the results shold be fairly realistic.
All the tools used were the ones that come with Debian 4.0 etch x86 (not x86_64): gcc 4.1, bzip2 1.0.3, etc. The filesystem used was ext3.
The host and the guests used basically the same software.
I first compiled the kernel in the host:
- Intel Core 2 Duo E6300
- 1 GB RAM
- Debian GNU/Linux 4.0 (etch)
- Linux 18.104.22.168
As the machine has a dual-core processor I compiled the same kernel twice: first with a classic make and then with two simultaneous jobs (‘make -j2‘).
Besides compiling the kernel in the host I tested the following virtualization software:
- User-mode Linux 22.214.171.124 in skas0 mode
- User-mode Linux 126.96.36.199 in skas3 (v9-pre9) mode
- QEMU 0.8.2
- QEMU 0.8.2 using KQEMU 1.3.0-pre11
- KVM 28
Here are the results of the test ordered by total compilation time (best results are shown first).
|Native (-j2)||4m 49s|
|UML skas3||12m 47s|
|UML skas0||14m 30s|
|QEMU + KQEMU||17m 55s|
|QEMU||2h 13m 04s|
Here’s a couple of charts showing the results. Both were constructed using the same data, but the latter omits QEMU as its performance is not comparable to the others. Click on the images to enlarge them.
As expected, native compilation is the best and making use of both cpu cores is really worth it.
KVM performed a bit worse than I expected but it’s still faster than any of the the other ones and reasonably close to native compilation.
Regarding User-mode Linux I was a bit surprised that the skas0 mode did not perform much worse than the skas3 mode. I also expected KQEMU to perform a bit better… unlike KVM, this one is even slower than plain User-mode linux running in skas0 mode (that doesn’t require any kernel module nor patch). Of course they’re very different programs, but you get what I mean.
And last but not least, I was really amazed on how slow is QEMU with no helper module. Of course in this mode (and unlike the other solutions tested) it emulates the CPU so it has to be obviously an order of magnitude slower than the rest, but still in everyday,
interactive usage, it doesn’t feel that slow.
Some extra remarks that I’d like to point out:
- Native mode is the only one that benefits from parallel compilation. All the other virtualization solutions perform (as expected) a bit slower when compiling with -j2. QEMU and KVM have a -smp flag to emulate a machine with several CPUs but neither one boots properly with that flag enabled.
- I made some tests comparing QEMU performance with qcow and raw disk images. The results were more or less similar.
- KQEMU didn’t even boot if I tried to use the -kernel-kqemu flag
- KVM requires hardware support to work properly. Only recent processors have this kind of functionality (mine has) so it doesn’t make sense to use it if your processor is older.
- Of course there are many other virtualization programs that I did not use in this test: OpenVZ, Xen, Linux-VServer, VirtualBox, VMWare… I expect OpenVZ and Linux-VServer to perform more or less like native mode, but I’d really like to know about the other ones.
And that’s all!! I hope that this article is useful to anyone and of course comments are welcome.
I’ve had a great time in Primavera Sound 2007. It was a really good festival and -despite some flaws this year- very well organised.
This time more than 100 artists and bands played in the festival so it’s really hard to summarize everything in a few lines. Some of my favourite concerts were (in no particular order): Wilco, Spiritualized, Billy Bragg, Sonic Youth, The Durutti Column and Malajube.
And now, back again at work!