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I have written some code using foreach which processes and combines a large number of CSV files. I am running it on a 32 core machine, using %dopar% and registering 32 cores with doMC. I have set .inorder=FALSE, .multicombine=TRUE, verbose=TRUE, and have a custom combine function.

I notice if I run this on a sufficiently large set of files, it appears that R attempts to process EVERY file before calling .combine the first time. My evidence is that in monitoring my server with htop, I initially see all cores maxed out, and then for the remainder of the job only one or two cores are used while it does the combines in batches of ~100 (.maxcombine's default), as seen in the verbose console output. What's really telling is the more jobs i give to foreach, the longer it takes to see "First call to combine"!

This seems counter-intuitive to me; I naively expected foreach to process .maxcombine files, combine them, then move on to the next batch, combining those with the output of the last call to .combine. I suppose for most uses of .combine it wouldn't matter as the output would be roughly the same size as the sum of the sizes of inputs to it; however my combine function pares down the size a bit. My job is large enough that I could not possibly hold all 4200+ individual foreach job outputs in RAM simultaneously, so I was counting on my space-saving .combine and separate batching to see me through.

Am I right that .combine doesn't get called until ALL my foreach jobs are individually complete? If so, why is that, and how can I optimize for that (other than making the output of each job smaller) or change that behavior?

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  • My understanding is that parallel execution occurs in batches; that foreach will distribute lists in bundles of length(parList)/ncores. I suppose combining partial results might be useful as a space saving measure. You may get more control with the iter function. – IRTFM Sep 9 '13 at 18:59
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The short answer is to use either doMPI or doRedis as your parallel backend. They work more as you expect.

The doMC, doSNOW and doParallel backends are relatively simple wrappers around functions such as mclapply and clusterApplyLB, and don't call the combine function until all of the results have been computed, as you've observed. The doMPI, doRedis, and (now defunct) doSMP backends are more complex, and get inputs from the iterators as needed and call the combine function on-the-fly, as you have assumed they would. These backends have a number of advantages in my opinion, and allow you to handle an arbitrary number of tasks if you have appropriate iterators and combine function. It surprises me that so many people get along just fine with the simpler backends, but if you have a lot of tasks, the fancy ones are essential, allowing you to do things that are quite difficult with packages such as parallel.

I've been thinking about writing a more sophisticated backend based on the parallel package that would handle results on the fly like my doMPI package, but there's hasn't been any call for it to my knowledge. In fact, yours has been the only question of this sort that I've seen.

Update

The doSNOW backend now supports on-the-fly result handling. Unfortunately, this can't be done with doParallel because the parallel package doesn't export the necessary functions.

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  • Well don't take my inquiry as evidence of a serious need in the community; this is my first task of anywhere near this scope so I really have no idea what I'm doing (yet). I managed to crash my 32-core, 128GB R server! Processed all 4914 files, then kernel panicked while summarizing post-foreach. Time for a code rewrite. In looking at the intros for doMPI and doRedis, I'll be trying yours if I cant get around my issue in some other way. Thanks for both this answer and all the work you've done on these awesome packages! – ClaytonJY Sep 10 '13 at 16:29
  • @Steve, is this still true? Revolutions released an v1.0.7 of the doParallel package with the comment: 1.0.7 2014-02-01 o Modified to work better when a foreach loop is executed in a package (courtesy of Steve Weston) o Added unit tests and a minimal working example – ctbrown Sep 24 '14 at 13:11
  • @ChristopherBrown Yes, it's still true. Adding support for on-the-fly result handling would be tricky since the underlying packages don't really support returning results on-the-fly, and the parallel package doesn't even export the internal functions that might allow that to be added to a modified version of clusterApplyLB. – Steve Weston Sep 24 '14 at 13:45

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