# best way to parallelize calculations on time series data in matlab

I have a linux cluster with Matlab & PCT installed (128 workers with Torque Manager), and I am looking for a good way to parallelize my calculations.

I have a time-series Trajectory data (100k x 2) matrix. I perform maximum likelihood (ML) calculations that involve matrix diagonalization, exponentiation & multiplications, which is running fast for smaller matrices. I divide the Trajectory data into small chunks and perform the calculations on many workers (coarse parallelization) and don't have any problems here as it works fine (gets done in ~30s)

But the calculations also depend on a number of parameters that I need to vary & test the effect on ML. (something akin to parameter sweep).

When I try to do this using a loop, the calculations becomes progressively very slow, for some reason I am unable to figure out.

``````%%%%%%% Pseudo- Code Example:

% a [100000x2], timeseries data

% p1,p2,p3,p4 are parameters
% but i want to do this over a multiple values fp3 & fp4 ;
paramsMat = [p1Vect; p2Vect;p3Vect ;p4Vect];
matlabpool start 128

[ML] = objfun([p1 p2 p3 p4],trajectoryData) % runs fast ~ <30s

%% NOTE: this runs progressively slow
for i = 1:length(paramsMat)

currentparams = paramsMat(i,:);
[ML] = objfun(currentparams,trajectoryData)
end
matlabpool close
``````

The objFunc function is as follows:

``````% objFunc.m
[ML] = objFunc(Params, trajectoryData)

% b = 2 always
[a b] = size(trajectoryData) ;

% split into fragments of 1000 points  (or any other way)
fragsMat = reshape(trajectoryData,1000, a*2/1000) ;

% simple parallelization. do the calculation on small chunks
parfor ix = 1: numFragments
% do heavy calculations
costVal(ix) = costValFrag;
end

% just an example;
ML = sum(costVal) ;

%%%%%%
``````

Just a single calculation oddly takes ~30s (using the full cluster) but within the for loop, for some weird reason there is damping of speed & even within the 100th calculation, it becomes very slow. The workers are using only 10-20% of CPU.

If you have any suggestions including alternative parallelization suggestions it would be of immense help.

-
Maybe this is a problem with memory allocation and not the parallelisation? Do you have any arrays in your code that grow with every cycle? –  Georg Sep 17 '12 at 10:56
Not in the core calculation(objFunc). I store the results in a cell array that grows every time. But, i preallocate it. –  nahsivar Sep 17 '12 at 11:04
Very odd, now am running the calculation with a 3000 parameters set (3000 x 4 matrix). In the beginning, the cpu utilization is around 60-70% in all the workers and even by the time of 100th iteration, it has dropped to 25% cpu usage. basically calling the same objFun with different parameters. should be trivial but apparently there is something weird. any tests that I could do ? –  nahsivar Sep 17 '12 at 11:11

If I read this correctly, each parameter set is completely independent of all the others, and you have more parameter sets than you do workers.

The simple solution is to use a batch job instead of parfor.

``````job_manager = findresource( ... look up the args that fit your cluster ... )
job = createJob(job_manager);
for i = 1:num_param_sets
end
submit(job);
``````

This way you avoid any communications overhead you have from the parfor of the inner function, and you keep your matlabs separate. You can even tell it to automatically restart the workers between tasks (I think), as one of the job parameters.

-

What is the value of `numFragments`? If this is not always larger than your number of workers, then you will see things slowing down.

I would suggest trying to make your outer `for` loop be the `parfor`. It's generally better to apply the parallelism at the outermost level.

-
numFragments is always > numWorkers; Can't make the outer loop to be parfor because the intensive calculations has to be done on the time trajectory fragments within the objFunction –  nahsivar Sep 17 '12 at 12:37
by how much does numFragments exceed numWorkers? –  Edric Sep 17 '12 at 13:09
am splitting the trajectories (~130-150,000) into pieces of 1000.so numFragments would be 130~150. so it's on the same order more or less as my numWorkers is ~128. –  nahsivar Sep 17 '12 at 13:12
and I also have trajectories that could be much longer (800,000-1million), so numFragments will be > numWorkers. –  nahsivar Sep 17 '12 at 13:28
Even a suggestion of a good test would help! Right now am trying a work around of restarting the matlabpool after 25-50 calculations. It helps but is a very unclean solution. –  nahsivar Sep 17 '12 at 14:22