Although this is the time of year that I normally mention some of the new features from the "a" release, today I thought I would focus on a feature added several releases ago that I think deserves more attention: parallel cluster-based image display. I can't remember exactly when this was released; I think it might have been R2011c.
Anyway, it turns out image display speed can be dramatically increased if we exploit the capabilities of today's massive parallel computing clusters. You start by opening a MATLAB pool from your desktop session using the Parallel Computing Toolbox function matlabpool. The Parallel Computing Toolbox has a new cluster profile that makes it easy to set things up for fast image display:
Once the pool is configured, then the Image Processing Toolbox function imshow automatically uses the workers in the pool.
Let's try it with my blog author picture:
(I'm writing this blog post at home, so for a cluster I'll be using my home-brew video game console, which runs on a cluster of 128 TRS-80s.)
Here's what the display looks like on worker #37:
And here is the display on worker #92:
If you look carefully, you can see that the pixel block is not exactly the same size on the two workers. That's because of the automatic worker load balancing feature. Way cool!
Let's get down to some numbers. Specifically, I was interested to see how well image display performance scales with the number of workers. I used my function timeit to measure the display speed as I varied the number of workers. The plot below is "normalized speed-up." That is, 1 is the image display speed for normal MATLAB, with no use of the Parallel Computing Toolbox.
As you can see, we get almost perfectly linear scaling with the number of workers. (I'm not sure what's going on with that blip on the left. I think it might have been caused by a bad tape unit on worker #25.)
So, Parallel Computing Toolbox users, please give this a try and let us know about your experience!
Before I wrap it up for today, I can't resist giving a hint about future development directions. (Long-time readers know how much MathWorks loves to preannounce features.) We recently got our hands on one of the experimental new superfluidic clusters. Early indications are that we'll be able to get image display speed to scale with the square of the number of workers! Woo-hoo!
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