My answer is not purely a python answer though I think it's the best approach given your problem.
This will only work on Unix systems (OS X/Linux/etc.).
I do stuff like this all the time, and I am in love with GNU Parallel. See this also for an introduction by the
GNU Parallel developer. You will likely have to install it, but it's worth it.
Here's a simple example. Say you have a python script called
# Script to print out file name
fileName = sys.argv # command line argument
print( fileName ) # adapt for python 2.7 if you need to
To make this file executable:
chmod +x processFiles.py
And say all your large files are in
largeFileDir. Then to run all the files in parallel with four processors (-P4), run this at the command line:
$ parallel -P4 processFiles.py ::: $(ls largeFileDir/*)
This will output
They may not be in order because each thread is operating independently in parallel. To adapt this to your process, insert your file processing script instead of just stupidly printing the file to screen.
This is preferable to threading in your case because each file processing job will get its own instance of the Python interpreter. Since each file is processed independently (or so it sounds) threading is overkill. In my experience this is the most efficient way to parallelize a process like you describe.
There is something called the Global Interpreter Lock that I don't understand very well, but has caused me headaches when trying to use python built-ins to hyperthread. Which is why I say if you don't need to thread, don't. Instead do as I've recommended and start up independent python processes.