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I am almost done with an algorithm that processes some very large integers (around the order of 2 raised to the power 100,000,000). This takes a couple of hours of highly-parallel code on a 16 core server with more than adequate memory since the algorithm is not memory intensive. I make use of the BigInteger class in .NET 4.

The specifics of the algorithm are not important but for context, following is a pretty exhaustive list of operations performed on these integers and some salient features of the algorithm:

  • Addition / Subtraction.
  • Multiplication of large numbers by small numbers.
  • Division of large numbers by very small numbers (e.g. 2).
  • Base 2 Log.
  • Base 2 Power.
  • Comparison of two or more large numbers (Min/Max).
  • No involvement whatsoever of prime numbers.
  • The algorithm is specifically designed not to be memory intensive since the performance hit of memory access is more than that of some smart on-the-fly calculations. Nevertheless, if memory access were to improve, the algorithm could benefit reasonably.

I have optimized the code as much as possible and profiling now shows only two bottlenecks:

  • Calculating base 2 Log for such large numbers.
  • Checking for pre-defined patterns of binary digits in these numbers. This is because the only way to access the BigInteger underlying data is by first using ToByteArray rather than in-place operations. Also, operating on byte-sized chunks does not help performance.

Considering memory access and Log operations, I started thinking about GPUs and whether I could offload some of the work effectively. I know very little about GPUs except that they are optimized for floating point operations.

My question is, using a library like GPU .NET, how can I process such large numbers on the GPU? Can I somehow make use of the floating point optimizations to calculate Log for such large numbers?

Looking for a starting point to form a strategy.

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Have you considered using CUDAfy.NET? cudafy.codeplex.com (Mind you, this is NVIDIA specific, so maybe not useful to you) –  Tom Chantler Aug 17 '12 at 7:12

1 Answer 1

up vote 4 down vote accepted

I am looking around for GPU work in C# and am considering Tidepowerd.com GPU.NET and CUDAfy.NET. Both Nvidia specific and CUDAfy did not (yet) support mono when I last checked. But they both allow for for reasonably normal looking code within C# that runs on the GPU.

Also, did you consider using a 3d party library?. There are several very good BigInteger libraries, also open source. GMP is very good and free; http://gmplib.org/, there is at least one C# wrapper (which I have no experience with) http://www.emilstefanov.net/Projects/GnuMpDotNet/

The BigInteger class in .NET is immutable and in my experience that is not handy. If you have 2 ints of your size (around 100MB) the Add operation results in a third 100MB BigInt. It can be done way faster if would for instance modify one of the two originals.

C = A + B means allocating 100MB for C (this is what BigInt does)
A = A + B means you no longer have the original A, but a much faster calculation
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Thanks. After downloading three libraries including the ones you suggested, I did not seem to find a Log function anywhere. Is that intentional and difficult to implement? –  Raheel Khan Aug 17 '12 at 9:34
@RaheelKhan do you need a floating point log or the position of the highest set bit? –  harold Aug 17 '12 at 10:42
I need both depending on the scenario. Highest bit set is trivial with BigInteger anyways. Floating point is costing me too much time. –  Raheel Khan Aug 19 '12 at 18:42
there is a lib based on gnu mp for very large floats that has the log() function I think. See mpfr.org –  IvoTops Aug 20 '12 at 9:13

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