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multithreading - C++ OpenMP: Split for loop in even chunks static and join data at the end

I'm trying to make a for loop multi-threaded in C++ so that the calculation gets divided to the multiple threads. Yet it contains data that needs to be joined together in the order as they are.

So the idea is to first join the small bits on many cores (25.000+ loops) and then join the combined data once more at the end.

std::vector<int> ids;               // mappings
std::map<int, myData> combineData;  // data per id
myData outputData;                  // combined data based on the mappings
myData threadData;                  // data per thread

    #pragma parallel for default(none) private(data, threadData) shared(combineData)
        for (int i=0; i<30000; i++)
        {
            threadData += combineData[ids[i]];
        }

    // Then here I would like to get all the seperate thread data and combine them in a similar manner
    // I.e.: for each threadData:  outputData += threadData

What would be the efficient and good way to approach this?

How can I schedule the openmp loop so that the scheduling is split evenly into chunks

For example for 2 threads: [0, 1, 2, 3, 4, .., 14999] & [15000, 15001, 15002, 15003, 15004, .., 29999]

If there's a better way to join the data (which involves joining a lot of std::vectors together and some matrix math), yet preserve the order of additions pointers to that would help as well.

Added information

  • The addition is associative, though not commutative.
  • myData is not an intrinsic type. It's a class containing data as multiple std::vectors (and some data related to the Autodesk Maya API.)
  • Each cycle is doing a similar matrix multiplication to many points and adds these points to a vector (in theory the calculation time should stay roughly similar per cycle)

Basically it's adding mesh data (consisting of vectors of data) to eachother (combining meshes) though the order of the whole thing accounts for the index value of the vertices. The vertex index should be consistent and rebuildable.

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This depends on a few properties of the the addition operator of myData. If the operator is both associative (A + B) + C = A + (B + C) as well as commutative A + B = B + A then you can use a critical section or if the data is plain old data (e.g. a float, int,...) a reduction.

However, if it's not commutative as you say (order of operation matters) but still associative you can fill an array with a number of elements equal to the number of threads of the combined data in parallel and then merge them in order in serial (see the code below. Using schedule(static) will split the chunks more or less evenly and with increasing thread number as you want.

If the operator is neither associative nor commutative then I don't think you can parallelize it (efficiently - e.g. try parallelizing a Fibonacci series efficiently).

std::vector<int> ids;               // mappings
std::map<int, myData> combineData;  // data per id
myData outputData;                  // combined data based on the mappings
myData *threadData;
int nthreads;
#pragma omp parallel
{
    #pragma omp single
    {
        nthreads = omp_get_num_threads();
        threadData = new myData[nthreads];
    }
    myData tmp;
    #pragma omp for schedule(static)
    for (int i=0; i<30000; i++) {
        tmp += combineData[ids[i]];
    }
    threadData[omp_get_thread_num()] = tmp;
}
for(int i=0; i<nthreads; i++) {
     outputData += threadData[i];
}
delete[] threadData;

Edit: I'm not 100% sure at this point if the chunks will assigned in order of increasing thread number with #pragma omp for schedule(static) (though I would be surprised if they are not). There is an ongoing discussion on this issue. Meanwhile, if you want to be 100% sure then instead of

#pragma omp for schedule(static)
for (int i=0; i<30000; i++) {
    tmp += combineData[ids[i]];
}

you can do

const int nthreads = omp_get_num_threads();
const int ithread = omp_get_thread_num();
const int start = ithread*30000/nthreads;
const int finish = (ithread+1)*30000/nthreads;
for(int i = start; i<finish; i++) {
     tmp += combineData[ids[i]];          
}

Edit:

I found a more elegant way to fill in parallel but merge in order

#pragma omp parallel
{
    myData tmp;
    #pragma omp for schedule(static) nowait 
    for (int i=0; i<30000; i++) {
        tmp += combineData[ids[i]];
    }
    #pragma omp for schedule(static) ordered 
    for(int i=0; i<omp_get_num_threads(); i++) {
        #pragma omp ordered
        outputData += tmp;
    }
}

This avoids allocating data for each thread (threadData) and merging outside the parallel region.


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