I have achieved 100% consistent results in this manner:
- Set up Bochs with MS-DOS.
- Set up your toolchain to target MS-DOS
— or —
- Set up your toolchain to target 32-bit Windows
- Install the HX-DOS extender in Bochs.
- If necessary, hack your toolkit's standard library / runtime and stub out/remove features requiring Windows APIs not implemented in HX-DOS. The extender will print a list of unimplemented APIs when you attempt to run the program.
- Reduce the number of cycles in your benchmark by a few orders of magnitude.
- Wrap the benchmark code with assembler
sti instructions (note that the binary won't run on modern OSes after this change).
- If you haven't already, make your benchmark use
rdtsc deltas for timing. The samples should be within the
- Run it in the Bochs!
The result seems to be completely deterministic, but is not an accurate assessment of overall performance (see the discussion under Osman Turan's answer for details).
As a bonus tip, here's an easy way to share files with Bochs (so you don't have to unmount/rebuild/remount the floppy image every time):
On Windows, Bochs will lock the floppy image file, but the file is still opened in shared-write mode. This means that you can't overwrite the file, but you can write to it. (I think *nix OSes might cause overwriting to create a new file, as far as file descriptors are concerned.) The trick is to use
dd. I had the following batch script set up:
... benchmark build commands here ...
copy /Y C:\Path\To\Benchmark\Project\test2dos.exe floppy\test2.exe
bfi -t=288 -f=floppysrc.img floppy
dd if=floppysrc.img of=floppy.img
bfi is Bart's Build Floppy Image.
Then, just mount
floppy.img in Bochs.
Bonus tip #2: To avoid having to manually start the benchmark every time in Bochs, put an empty
go.txt file in the floppy directory, and run this batch in Bochs:
choice /T:y,1 > nul
if not exist go.txt goto loop
It will start the test program every time it detects a fresh floppy image. This way, you can automate a benchmark run in a single script.
Update: this method is not very reliable. Sometimes the timings would change as much as by 200% just by reordering some tests (these timing changes were not observed when ran on real hardware, using the methods described in the original question).