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Windows Azure advertises three types of IO performance levels:

  • Extra Small : Low
  • Small: Moderate
  • Medium and above: High

So, if I have an IO bound application (rather than CPU or Memory bound) and need at least 6 CPUs to process my work load - will I get better IO performance with 12-15 Extra Smalls, 6 Smalls, or 3 Mediums?

I'm sure this varies based on applications - is there an easy way to go about testing this? Are there any numbers that give a better picture of how much of an IO performance increase you get as you move to large instance roles?

It seems like the IO performance for smaller roles could be equivalent to the larger ones, they are just the ones that get throttled down first if the overall load becomes too great. Does that sound right?

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up vote 7 down vote accepted

Windows Azure compute sizes offer approx. 100Mbps per core. Extra Small instances are much lower, at 5Mbps. See this blog post for more details. If you're IO-bound, the 6-Small setup is going to offer far greater bandwidth than 12 Extra-Smalls.

When you talk about processing your workload, are you working off a queue? If so, multiple worker roles, each being Small instance, could then each work with a 100Mbps pipe. You'd have to do some benchmarking to determine if 3 Mediums gives you enough of a performance boost to justify the larger VM size, knowing that when workload is down, your "idle" cost footprint per hour is now 2 cores (medium, $0.24) vs 1 (small, $0.12).

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Yes, we are working off of a queue. We do a lot of table storage operations in parallel right now. We've had to do a lot of testing to see how to throttle those operations to not cause problems. – Ryan Elkins Feb 17 '11 at 19:57

As I understand it, the amount of IO allowed per-core is constant and supposed to be dedicated. But I haven't been able to get formal confirmation of this. This likely is different for x-small instances which operatin in a shared mode and not dedicated like the other Windows Azure vm instances.

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Yeah, per David's link it looks like it's 100 Mbps/core except for XSmall which is 5 Mbps – Ryan Elkins Feb 17 '11 at 21:04

I'd imagine what you suspect is in fact true, that even being IO-bound varies by application. I think you could accomplish your goal of timing by using Timers and writing the output to a file on storage you could then retrieve. Do some math to figure out you can process X number of work units / hour by cramming as many through a small then a medium instance as possible. If your work unit size drastically fluctuates, you might have to do some averaging too. I would always prefer smaller instances if possible and just spin up more copies as you have need for more firepower.

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