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What is the fastest most efficient way to sumUp all matrix elements parallel in .net 4.0 ?

using Parallel.For end in inner loop making lock(objectLock) { result += matrix[i, j] } is 2 times slowwer then sequential approach.

thanks for any hints, bye

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lock effectively blocks your code to synchronize it, so the slowdown should be expected. – SWeko Dec 14 '10 at 8:54

ParallelEnumerable.Sum knows how to do the sum without needing either locking or interlocked operations (I assume it sums subsets on each thread, and then sums those results).

Assuming your matrix is IEnumerable<IEnumerable<numeric>>:

var sum = (from row in matrix.AsParallel()
           select row.Sum()).Sum();

The AsParallel means the rows are processed in parallel, but the inner (column) sum is just Enumerable.Sum (unless the rows are very long, the overhead of concurrency will overwhelm any possible benefits).

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Edit your answer: select (row.Sum()).Sum(); to select row.Sum()).Sum(); – Saeed Amiri Dec 14 '10 at 10:33
@Saeed: typo corrected, thanks. – Richard Dec 14 '10 at 10:49

Well you can consider your martrix[m,n] to m arrays whose length is n and then sum the m arrays parallelly. And by the way, you shouldn't use lock here, use Interlocked.Add instead. I'm busy now, I'll write an example if I have time then.

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Use static variables for i,j and result without using lock

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You can't modify result with non atomic operations from multiple threads and expect the correct result. Each thread needs it's own accumulator and then add all accumulators using a single thread. – CodesInChaos Dec 14 '10 at 10:23

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