Why are pool workers going inactive while many iterations remain?

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Daniel Bengtson 2023년 7월 28일

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https://kr.mathworks.com/matlabcentral/answers/2002102-why-are-pool-workers-going-inactive-while-many-iterations-remain

댓글: Jeff Miller 2023년 8월 2일

I have a task wrapped in a parfor loop where text data files are read then converted to numeric values and downsampled to common signal frequencies and saved out as .mat files. There are many thousands of these text files of varying size between ~100 kilobytes and 3 gigabytes. This process is being run on a workstation with a i9-10980XE (18 cores/36 threads 128GB RAM) using the default cluster settings. Upon initial launch of the script, I can see via the resource monitor that the processes for all 18 workers are consuming 100% CPU for each of their threads.

If I check back on the process several hours later, the majority of the workers have stopped contributing with somewhere between 1-4 still running at 100%. All other workers still exist but are dormant as confirmed both by continual 0% CPU usage and by a reduction in the number of simultaneously changing files as compared to the number seen at launch.

At this point there will still be hundreds if not thousands of files left to process, so I am confused as to why these available workers are not being utilized. I can see no evidence of any errors that would have somehow forced the impacted workers to go dormant. I also have not seen any indication that hardware resources became a limiting factor. If a worker was to somehow stop mid-task I would also see partial log files created and not completed, but this is not happening. It appears that most workers are completing a small percentage of the overall task then going dormant while a smaller subset of the pool does the vast majority of the work.

I have seen mention of manually setting RangePartitionMethod and SubrangeSize pool parameters as a possible solution in other questions, but in those situations the issue sounds to be a result of relatively few expected iterations per worker and inconsistent work per iteration. In my situation given the considerably larger number of iterations compared to pool size, I am assuming that the number of files and distribution of file sizes is relatively consistent between workers.

UPDATE:

Based on Jeff and Walters answer I've modifed my script and it now utilizes all workers for the entire parfor execution.

I wrote a function that sets the work partitions such that each worker gets an inital batch which when combined across all workers would be 50% of the total work. The remaining 50% of the work is passed to workers as single items once they become available. This obviously would create some overhead vs pre-assigning, but in my application each execution on a worker is being passed only a file name and is otherwise quite isolated concerning IO. At least in my case if there is a negative impact to the overhead, it is more than made up for by all of the workers being kept at close to 100% utilization.

opts = poolOpts(n);
parfor(i = 1:n,opts)
    % do stuff
end
function opts = poolOpts(iterations)
    pool = gcp('nocreate'); %pool handle
    if isempty(pool)
        pool = parpool;
    end
    nw = pool.NumWorkers; %number of workers in pool
    initChunk = floor(iterations/2); %number of iterations to assign at start = 50%
    initWorkerChunk = floor(initChunk/nw); %number of iterations per worker to assign at start
    poolPartitions = [repmat(initWorkerChunk,1,nw) ones(1,(iterations-(initWorkerChunk*nw)))]; %vector of 
    opts = parforOptions(gcp,"RangePartitionMethod",@(iterations,nw) poolPartitions);
end

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Matt J 2023년 7월 28일

How many files are being processed in total and how many have been fully processed when you check back?

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Answer 1

Jeff Miller 2023년 7월 28일

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https://kr.mathworks.com/matlabcentral/answers/2002102-why-are-pool-workers-going-inactive-while-many-iterations-remain#answer_1280427

What you would like is for any free processor to take up any waiting task (me too), but for some reason that's not how it works. Instead, parfor assigns all of the iterations to the different processors at the start, essentially making a little task queue for each processor. If too many slow tasks go into the queue for one processor (i.e., too many big files, in your case), that processor may still be chugging its way through its queue (with lots of unstarted tasks still in its queue) long after all of the other processors are finished and doing nothing. I think you have to use RangePartitionMethod to allocate tasks (files) more equally across processors.

Maybe there is something helpful in this question

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Walter Roberson 2023년 7월 29일

parpool does not assign all of the iterations at the start.

parpool divides up approximately 2/3 of the iterations evenly between processors at the start, putting them into a queue.After that, it also takes about 1/4 of the iterations and divides them by the number of processors and puts the resulting chunks into the queue. It then takes all of the remaining iterations and puts them into the queue one iteration at a time.

(I posted more accurate fractions and test code a number of years ago; might take me a bit of time to find those though.)

So, if all tasks were the same duration, then cores would typically be asked to execute a large chunk, then a small chunk, and then it would be a race for mop-up tasks.

But of course sometimes tasks can be very different duration. If the different lengths occur at "random" and the number of tasks is large enough, then on average it would all work out.

But... especially when working with files, it is common that different sized tasks determined by file contents tend to cluster around similar iteration numbers, so it can be the case that one of the workers eats through its tasks much faster than other workers. In such a case, the worker might end up taking on several of the small chunks... and possibly it might get through all of the single iterations too. And then it might not have anything left to do.

Once a chunk of iterations has been started by a core, parfor does not later say, "Oh, I see you have some iterations left and there are workers without iterations; do not do such-and-such-an-iteration, I will have a different worker do it."

iterations to be done are not just queued one-by-one: chunks sizes are determined at the beginning (but individual chunks are not assigned to workers until a worker asks for more work.)

Daniel Bengtson 2023년 7월 31일

MATLAB Online에서 열기

Thank you Jeff and Walter. That does help to clear up my misunderstanding of the expected behavior. It sounds like what I am after is a way to reduce the portion of the iterations that are assigned as chunks evenly at the start to maybe 50% and then set all other chunks as single iterations to more fluidly assign between available workers? I am expecting the reduced initial chunk size to hopefully prevent a single worker from recieving drastically more work than the others, and for all of the single iteration chunks to better even out the work if there is still some imbalance.

To keep more of the workers active longer, would it be better to do something like this pseudo code? My cycle time is curently several days, so I'm hoping to maybe get a hint that I am on the right track before I refactor and test.

n = %number of files (iterations)
pool = gcp('nocreate'); %pool handle
nw = pool.NumWorkers; %number of workers in pool
initChunk = floor(n/2); %number of iterations to assign at start = 50%
initWorkerChunk = floor(initChunk/nw); %number of iterations per worker to assign at start
poolPartitions = [repmat(initWorkerChunk,1,nw) ones(1,(n-(initWorkerChunk*nw)))]; %vector of 
opts = parforOptions(gcp,"RangePartitionMethod",@(n,nw) poolPartitions);
parfor(i = 1:n,opts)
    %do stuff
end

Walter Roberson 2023년 7월 31일

I no longer recall exactly what happens when the number of parfor iterations matches the number of cores.

... but I would suggest that at that point it might make more logical sense to parfeval() instead of parfor.

Jeff Miller 2023년 8월 2일

@Daniel Bengtson Thanks for the update--that looks like a very useful example.

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