# C# Mersenne Twister random integer generator implementation (SFMT) monte carlo simulation

So far I've been using the C# Mersenne Twister found here to generate random numbers:

http://www.centerspace.net/resources.php

I just discovered SFMT which is supposed to be twice as fast here:

http://www.math.sci.hiroshima-u.ac.jp/~m-mat/MT/SFMT/

Can anyone point me at a C# implementation of SFMT?

My requirements are to generate an integer between (and including) 0 and 2^20 (1048576).

I need to do this trillions of times everyday for a simulation running on a 24 hour clock so I am prepared to spend days tweaking this to perfection.

Currently I've tweaked the Center Space Mersenne Twister by adding a new method to fit my requirements:

``````public uint Next20()
{
return (uint)(genrand_int32() >> 12);
}
``````

Using the method `genrand_int32()` I'd like to produce my own version, `genrand_int20()`, that generates an integer between (and including) 0 and 2^20 to save on the cast above and shift but I don't understand the mathematics. Exactly how can I do this?

Also is using an uint going to be faster that int, or is just a matter of addressable numbers? Because I only need up to 1048576, I am only concerned with speed.

Also this will be running on a Windows Server 2003 R2 SP2 (32bit) box with .NET 2. Processor is AMD Opteron 275 (4 core).

-
A 20-bit number will represent the range 0 to 2^20-1 inclusive, 2^20 requires 21 bits to represent (a 1 followed by 20 zeros) –  Patrick McDonald Jul 22 '09 at 16:16
Nifle: Don't confuse the period of the generator (which is the length of the sequence) with an interval in which you want random numbers. –  Јοеу Jul 22 '09 at 16:23
@Patrick thanks you are correct 2^20-1 is what I need, I need to randomly index into an array of length 2^20. –  m3ntat Jul 22 '09 at 16:30
@Nifle yes I know, I asked if anyone can point me at a C# implementation of SFMT. –  m3ntat Jul 22 '09 at 16:31

What you can do is download the source from the link you discovered on Code Project. Unzip it, load the solution in Visual Studio and compile it. This will give you source, an unmanaged c dll and a .lib file.

You can P/Invoke the functions in this dll, (there are only 5 simple functions exported, of which you need only two) or you can use this dll, lib, and the SFMT header file to create a managed wrapper dll you can use in C# without P/Invoke. I just tried this method and it was very simple to do. There was no explicit marshalling involved.

Edit WrapSFMT.h to read as follows:

``````#pragma once
#include "SFMT.H"

using namespace System;

namespace WrapSFMT {

public ref class SRandom
{
public:SRandom(UInt32);
public:UInt32 Rand32(void);
};
}
``````

These declare the methods that will be in your class. Now edit WrapSFMT.cpp to read:

``````#include "WrapSFMT.h"

namespace WrapSFMT {

SRandom::SRandom(UInt32 seed)
{
init_gen_rand(seed);
}

UInt32 SRandom::Rand32()
{
return gen_rand32();
}
}
``````

These implement the methods you declared in the header file. All you are doing is calling functions from the SFMT.dll, and C++/CLI is automatically handling the conversion from unmanaged to managed. Now you should be able to build the WrapSFMT.dll and reference it in your C# project. Make sure the SFMT.dll is in the path, and you should have no problems.

-
I downloaded his DLLs and tried to add them as reference to my C# project I get: --------------------------- Microsoft Visual Studio --------------------------- A reference to 'SFMTc.dll' could not be added. Please make sure that the file is accessible, and that it is a valid assembly or COM component. --------------------------- OK --------------------------- Any ideas? on how to use this and call it in the most efficient manner from Visual Studio –  m3ntat Jul 23 '09 at 12:36
Ok I've place the DLL in my bin folder, and have code: [DllImport("SFMTc.dll")] static extern UInt32 gen_rand32(); This call with no errors but all I get back is 0, never any other number. –  m3ntat Jul 23 '09 at 13:13
If you want to use P/Invoke, you will need to invoke two functions, init_gen_rand(UInt32), initializing the generator with a seed, and then you can call gen_rand32() as much as you like. (but you probably should not exceed the Mersenne Twister's period) –  R Ubben Jul 23 '09 at 13:34
To your first comment, if you want to reference the dll in your C# project and avoid P/Invoke, you will need to create a wrapper dll with C++/CLI and reference that. It is not difficult. I will edit the answer to show you how. –  R Ubben Jul 23 '09 at 13:43
Awesome @R Ubben exactly what I'm looking for, I am trying the DllImport route for the moment, which is likely to be faster? Also what is my best way to seed this? and how to seed for multithreaded code? or could I just init_gen_rand once for the life of the program before spinning up threads, then each independent thread can make calls to gen_rand32() provided calling gen_rand32() is thread safe? else I don't see how to separate this and effectively give each thread it's own Random Number generator so they are independent? –  m3ntat Jul 23 '09 at 16:08

You can find a C# implementation of SFMT (plus other RNG algorithms) at... http://rei.to/random.html The page and source code comments are in Japanese but you should be able to figure it out.

You can also find a Google-translated version (to English) of the page at... http://translate.google.com/translate?hl=en&sl=ja&u=http://rei.to/random.html

-

I don't really see your problem with speed here. On my machine (Core 2 Duo T7200 @ 2 GHz) generating a random integer with MT19937 or MT19937-64 takes around 20 ns (on average, when drawing 50000 numbers). So that'd be around 4,32 × 1012 (so around 4 trillion numbers) a day. And that's for one core. With Java. So I think you can expect the performance to be more than adequate for your needs.

To actually answer your question: I don't know of a C# implementation of SFMT, but conversion of the C code to C# should be fairly straightforward. However, you're not gaining much, as SFMT is optimized for SIMD and C# currently doesn't support this directly.

-
I've calculated daily Random Number requirements for this simulation to support the business at 1,645,668,000,000. The simulation does a lot of other things mainly matrix multiplication so I can't devote all CPU time to random number generation, obviously I want to minimise each random number gen as much as possible, hence the Stackoverflow Question. –  m3ntat Jul 22 '09 at 16:35
Well, you still have multiple cores and Monte Carlo simulations tend to be pretty parallelizable. I'd say you should first go ahead and solve your problem and revisit individual parts of the solution if they prove to be a performance problem. –  Јοеу Jul 22 '09 at 16:39
For SFMT I didn't realise that, perhaps my best approach is to try compile the c version here: math.sci.hiroshima-u.ac.jp/~m-mat/bin/dl/… and then make use of it from my C# monte carlo simulation somehow. I'm not familiar withe c/c++ how to compile their src and how to use it from C#. –  m3ntat Jul 22 '09 at 16:39
Thanks @Johannes, my implementation can use 3 cores (of the 4 on the box) so yes it will be a parallel implementation even then (with a 3 fold win) I am getting close to hitting the 24 hours daily execution time limit in the app. I've put in a request for a newer Server, more cpu etc but the pace this bank works it's a very slow process and I've been asked to optimise now. –  m3ntat Jul 22 '09 at 16:43
Sounds like you could use a good case of the Quake Optimization Rule. –  FryGuy Jul 22 '09 at 16:49
show 1 more comment

Is there a reason you can't compile the C implementation into a DLL and call this from your C# code?

EDIT:

I'm sorry, but I have only a very limited knowledge of C (and indeed C#), but the "How to create a C dll" may be answered here: http://www.kapilik.com/2007/09/17/how-to-create-a-simple-win32-dll-using-visual-c-2005/ and the how fast can be checked by profiling the code.

-
Hi Patrick, I have never used c, not sure how to do this? and use from C#, am I likely to loose much performance win by what I assume .net does some wrapping of my calls from C# to the underlying c DLL? –  m3ntat Jul 22 '09 at 16:46
I'd guess that P/Invoke repeatedly into non-managed code does incur a pretty hefty performance overhead. –  Јοеу Jul 22 '09 at 16:53
I just discovered this: codeproject.com/KB/DLL/SFMT_dll.aspx?msg=3130186 am wondering if it could prove useful for my situation –  m3ntat Jul 22 '09 at 16:59
I also noticed a F# implementation at the botttom here en.wikipedia.org/wiki/Mersenne_twister no idea how to use F# but might be worth learning and benchmarking. –  m3ntat Jul 22 '09 at 17:00
Well, both F# and C# target the CLR and I'd expect the F# code to be actually slower than C#. You can always look at the generated code with Reflector, however. –  Јοеу Jul 22 '09 at 17:46