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I am currently running a multithreading simulation application with 8+ pipes (threads). These pipes run a very complex code that depends on a random sequence generated by a seed. The sequence is then boiled down to a single 0/1.

I want this "random processing" to be 100% deterministic after passing a seed to the processing pipe from the main thread. So, I can replicate the results in a second run.

So, for example: (I have this coded and it works)

Pipe 1 -> Seed: 123 -> Result: 0
Pipe 2 -> Seed: 123 -> Result: 0
Pipe 3 -> Seed: 589 -> Result: 1

The problem arises when I need to run 100M or more of these processes and then average the results. It may be the case only 1 of the 100M is a 1, and the rest are 0. As it is obvious, I cannot sample 100M random values with 32bit seeds feeding to srand().

Is it possible to seed with a 64bit seed in VS2010 to srand(), or use a equivalent approach?

Does rand() repeat itself after 2^32 or does not (has some inner hidden state)?

Thanks

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rand has a period of RAND_MAX which is generally 2^16-1, no amount of seeding will fix that, better to use a higher quality PRNG. –  Necrolis Nov 1 '13 at 20:06

4 Answers 4

up vote 3 down vote accepted

You can use C++11's random facilities to generate random numbers of a given size and seed size, though the process is a bit too complicated to summarize here.

For example, you can construct an std::mersenne_twister<uint64_t, ...> and seed it with a 64-bit integer, then acquire random numbers within a specified distribution, which seems to be what you're looking for.

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Thanks! but I am with VS2010... –  DarkZeros Nov 1 '13 at 21:38
    
VS2010 has support for this –  Collin Dauphinee Nov 1 '13 at 21:43
    
Very interesting, I think I will use this in the end –  DarkZeros Nov 1 '13 at 22:37

A simple 64-bit LCG should meet your needs. Bit n (counting from the least significant as bit 1) of an LCG has period at most (and, if parameters are chosen correctly, then exactly) 2^n, so avoid using the lower bits if you don't need them, and/or use a tempering function on the output. A sample implementation can be found in my answer to another question here:

http://stackoverflow.com/a/19083740/379897

And reposted:

static uint32_t temper(uint32_t x)
{
    x ^= x>>11;
    x ^= x<<7 & 0x9D2C5680;
    x ^= x<<15 & 0xEFC60000;
    x ^= x>>18;
    return x;
}
uint32_t lcg64_temper(uint64_t *seed)
{
    *seed = 6364136223846793005ULL * *seed + 1;
    return temper(*seed >> 32);
}
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I will save this code, is usefull. –  DarkZeros Nov 1 '13 at 21:39

I can't answer your questions, but if you find out you can't do what you want, you can implement your own pseudo-random algorithm generator which takes a uint64_t as a seed. There are better algorithms for this purpose if you want some more serious generator (for cryptography purposes, for instance), but LCG is the easiest I've seen to be implemented.

EDIT

Actually you cannot use a 64-bit seed for the rand() function. You will have to go for your own. In this Wikipedia table there some parameters used by MMIX Donald Knuth to implement it. Be aware that depending on the parameters you use, your random number generator period will have a much lesser value than 2^64 and because of the multiplications, you may need a Big Number library to handle the math operations.

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Use random() and srandom() instead. From their man page:

The random() function uses a non-linear, additive feedback, random number generator, employing a default table of size 31 long integers. It returns successive pseudo-random numbers in the range from 0 to (2**31)-1. The period of this random number generator is very large, approximately 16*((2**31)-1).

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This doesn't exist on Windows. –  Collin Dauphinee Nov 1 '13 at 20:16
    
It also doesn't have per-thread state, so it's useless for reproducible results in multithreaded programs this. –  R.. Nov 1 '13 at 20:52

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