3

Random numbers have been well covered here, so I'll keep it brief.

I use srand and rand to generate some deterministic random numbers in a simulation. However, when running multiple simulations at once on separate threads, the individual sequence gets muddled up and becomes non deterministic, because all threads draw from the same pool. Is there an easy way to "bind" rand to draw from a specific instance? Or would I have to switch to something like Boost.Random?

5
  • 2
    If your srand and rand share global state, how do you even know that they are thread-safe? Jun 24, 2011 at 12:12
  • 2
    That is actually a very good point David. 0_o
    – Cookie
    Jun 24, 2011 at 12:18
  • Actually, quick follow on question. I have now used the random headers from boost, but even though I use a seed value I get different random numbers for different compilation options (debug vs release etc). Is this to be expected?
    – Cookie
    Jun 24, 2011 at 13:39
  • Follow on questions should appear as new questions. Jun 24, 2011 at 13:50
  • no, that sounds strange.
    – jalf
    Jun 24, 2011 at 14:42

6 Answers 6

4

Your compiler most likely already has something very like Boost.Random.

C++0x includes a <random> header which is based on Boost.Random (with a few tweaks here and there).

Before then, TR1, a set of "semi-standard" libraries was available for most compilers as well, which contains nearly the same <random> header.

4

On Linux, rand_r is a reentrant version of rand, but it is a rather weak PRNG, so might want to use something from the *rand48_r family of functions.

rand_s is a reentrant version of rand on Windows, but since its state is an unsigned int, it is also bound to be quite weak.

Long story short, you're probably better off with Boost.Random.

4

I strongly recommend using <random> or <tr1/random> for fine-grained access to high-quality PRNG classes which you can instantiate one in each thread with full control over their seeds and thus their resulting sequence of random numbers.

2

You can use this code, keeping a rnd_state struct for each of the threads. You may initialize the rnd_state with rand(). It's just an idea and this is a reasonable RNG.

From the linux kernel source code (random32.c)

the values in rnd_state should be initialized like: s1 > 1, s2 > 7, s3 > 15.

The paper claims this is a maximally equidistributed combined Tausworthe generator based on code from GNU Scientific Library 1.5 (30 Jun 2004)

struct rnd_state {
    u32 s1, s2, s3;
};

static u32 __random32(struct rnd_state *state)
{
#define TAUSWORTHE(s,a,b,c,d) ((s&c)<<d) ^ (((s <<a) ^ s)>>b)

    state->s1 = TAUSWORTHE(state->s1, 13, 19, 4294967294UL, 12);
    state->s2 = TAUSWORTHE(state->s2, 2, 25, 4294967288UL, 4);
    state->s3 = TAUSWORTHE(state->s3, 3, 11, 4294967280UL, 17);

    return (state->s1 ^ state->s2 ^ state->s3);
}

Academia: http://www.iro.umontreal.ca/~lecuyer/myftp/papers/tausme.ps

2
  • Just for reference, 32-bit 4 component and 64-bit 5 component Tausworthe generators (described in this paper) can be found at iro.umontreal.ca/~simardr/rng (lfsr113.c and lfsr258.c respectively). They appear to be an improvement on the 3 component generator in your answer.
    – Chris
    Mar 5, 2012 at 16:14
  • By the way, do you know of any tests for correctness of the Tausworthe you list (i.e. the million-th value should be xxx)?
    – Chris
    Mar 5, 2012 at 16:15
0

A bunch of PRNGs are being added to the standard library. Another option is to pregenerate a large pool of numbers for each thread and then issue them one-at-a-time.

0

The documentation for my C++ random number library, RandomLib, contains an illustration of using parallel number streams in OpenMP; see http://randomlib.sourceforge.net/html/parallel.html. You might be able to adapt the ideas presented there to your application.

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