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I have a Monte Carlo Markov Chain simulation to test. The system size is n. Now I want to know what the relationship between n and the cost is. In other words, I want to know the power/order of n in the cost, e.g., is it n^2.5 or n^2.8?

Since there are many factors and steps involved, I prefer not to analyze the complexity first. I would very much like to run the simulation to obtain the machine time cost. So my question is how do I get the cost relation n^x, where x is unknown, based upon the machine time?

For example, when n = 1000, it takes t_1 to run a whole sweep, which is 1000 Monte Carlo steps. When n = 666, it takes t_2 to run a whole sweep, which is 666 Monte Carlo steps this time. I could obtain t_1, t_2, t_3 for different size of n, then how do I check the order of the cost?

BTW, does it matter if use different computer to get the machine time? Sorry for my ignorance.

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Use tic, toc to get the times for different n (I guess you'll have to average if there is a distribution for the time for a given), and then use log to get the exponent (assuming it's of an exponential form) and do a best fit over the different n values. –  Lazarus Feb 27 '14 at 17:12
@Lazarus Thank you very much. Would you please answer separately so I can make it the answer choice? –  Appalachian Math Feb 27 '14 at 17:15
@Lazarus By averaging it, did you mean I need run k*n times for a system of n and take the average time over k? –  Appalachian Math Feb 27 '14 at 17:18
Yes. You're running a monte carlo, so I assume there will be some variance. If the variance is really small, then just ignore the average part. –  Lazarus Feb 27 '14 at 17:19

2 Answers 2

up vote 2 down vote accepted

Use tic, toc to get the times for different n. If you there is a distribution of the time for a given n, then get the average.

Then, if you know it has the exponential form, you can get

order = log(avgtime);

With the different order values for each of the n values, you'll run a best fit (possibly polyfit).

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does it matter if I use different computer to get the machine time? Sorry for my ignorance. I guess machine time should have nothing to do with a particular computer, right? –  Appalachian Math Feb 27 '14 at 17:21
The time will depend on the computer. The complexity should not. Technically, you will get some A*n^p, where p is the complexity, and A is some machine dependent constant. –  Lazarus Feb 27 '14 at 18:41

This MathWorks article has some general recommendations, including timeit, tic/toc and cputime.

The timeit function is often better since it accounts for first-time run costs. However, it is slightly more complicated to run, since it takes a function handle, and optionally, the number of output arguments from the handle:

X = [1 2; 3 4; 5 6; 7 8];
f = @() svd(X);
t = timeit(f, 3)

The reason why it is so handy, and accurate compared to tic/toc is because:

timeit calls the specified function multiple times, and computes the median of the measurements.

The cputime function is interesting as it will give higher numbers compared to tic/toc and timeit on multithreaded machines. If you are interested in the computational burden, perhaps this is a more relevant metric. The cputime Function vs. tic/toc and timeit.

There used to be flops command to return the number of floating point operations, but that was removed ages ago. If you really want to count flops, the Lightspeed toolbox has functions for this purpose.

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Thank you so very much for your informative reply. I am looking into what you mentioned. –  Appalachian Math Feb 27 '14 at 21:51

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