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I am attempting to derive a pseudo-random 32bit value from a 32bit input.

For this, I am using this murmur hash:

uint32_t murmur(uint32_t key, uint32_t seed)
{
        uint32_t k = ( key ^ seed ) * 0x5bd1e995;
        k = k ^ (k>>24);
        return k;
}

To my surprise, there is a large delta in the quality of randomness in the lower 16 bits compared to the higher 16 bits.

If I use the lowest 16 bits to generate random unit vectors, I get a clear pattern on the sphere, with poles and meridians visible.

enter image description here

If I use the highest 16 bits to generate random unit vectors, I get a much better distribution of points.

enter image description here

Is this a fundamental issue with MURMUR, or am I using it wrong?

The key that I feed it, is the value [ 0,1,.. N ] multiplied with the large prime 2521008887.

For the x/y/z coordinates of the 3D vector, I use randomly chosen seeds 0xb7295179, 0x18732214, 0x9531f133.

Randomness of 0xffff0000 bits visually checks out. Randomness of 0x0000ffff bits does not.

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  • How do you use it to generate a unit vector? – President James K. Polk Nov 18 '20 at 0:52
  • I take two random vectors [ -1..1, -1..1, -1..1 ] and use the shortest one to normalize. It still has a faint bias for 'cube-corners' visible in the lower image, but that is so subtle, I can live with it. Especially if you compare it w the image above. – Bram Nov 18 '20 at 0:58

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