My 3D graphics software, written in C# using SlimDX, does a lot of vector operations on the CPU. (In this specific situation, it is not possible to offload the work to the GPU).

How can I make my vector math faster? So far, I have found these approaches:

  • Run on Mono instead of Microsoft .NET, because they have SIMD support. Not an option for this project.
  • SlimGen, a project that injects high-performance maths code at runtime. Unfortunately, the project is not in a usable state yet.
  • Write a DLL in C++ using a compiler that utilizes SSE instructions. Interop with that DLL from C#.

Are there any other options to accomplish faster vector math in .NET?

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    How is this "off-topic"? You people are baffling sometimes. – Lightness Races with Monica Mar 30 '13 at 21:38
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    Multithreading (or Open MP) could be useful. I don't know if you can utilize Open MP on .NET, but I'd recommend a native dll anyway if you can keep the total amount of p/invoke function calls low. – dialer Mar 30 '13 at 21:43
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    Late reply I know but you might want to look into the Yeppp! SIMD library – user9993 Jun 10 '15 at 8:07

Write a DLL using Microsoft Visual C++'s compiler. Use standard C++ with SSE intrinsics and/or OpenMP for the heavy numeric code, with #pragma unmanaged. Use #pragma managed to define a clean C++/CLI API which C# can use.

C++ interop is quite a bit faster than p/invoke. And C++/CLI is the only elegant way to deal with both garbage collected memory and the assumptions of native functions (that memory blocks won't move).

You might find that moving some of the OpenGL calls to C++, and using the C++-allocated memory buffers directly for loading VBOs, etc. also gives a big performance win.


Microsoft just announced support for generating vectorized instructions in their .NET Native compiler thanks to back-end C++ compiler optimizations, and more importantly native support for SIMD vector types in the most recent version of their JIT ("RyuJIT"). See some samples here.


If you're in the mood to write assembly code in C#, another option is the NAsmJit project, which is a port of AsmJit to C#. I haven't updated it to reflect the latest changes in that project, but much of the support was quite usable at last check.


Latest developments in .NET include a SIMD dedicated vector/matrix library called System.Numerics.Vector:

Using System.Numerics.Vector for Graphics Programming

This will be enabled as soon as the new JIT compiler "RyuJIT" will be the default, a preview is here:

RyuJIT CTP5: Getting closer to shipping, and with better SIMD support

So very soon (hopefully 2015) we will have very fast SIMD vectors in .NET without any programming overhead.


Mixing .NET with native code. In this case you will need to have one release for x86 and another for x64. You can see Mixed (Native and Managed) Assemblies [MSDN]

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