I'm working on fast 64-bit hash. Many existing secure hash functions are too way slow, some non-cryptographic hash functions like FNV are just bad.

Well, I came up with a FNV-like hash:

```
UINT64 hash=0;
// for each input byte
hash=(hash^(input_byte+1))*HASH_PRIME;
```

Main question is about HASH_PRIME. Often, we may see a "golden ratio" term for multiplicative hashing. For 64-bit hash, golden ratio is 0x9e3779b97f4a7c13.

I tested the 32-bit golden ratio for period in PRNG:

```
DWORD hash=0;
// loop
hash=(hash^1)*0x9e3779b9;
rnd_out=hash>>24;
```

A good value here may produce the period of 0xFFFFFFFF - i.e. max possible. This golden ratio produces notably smaller period.

or just

```
DWORD hash=~0;
// loop
hash*=0x9e3779b9;
rnd_out=hash>>24;
```

And again, a good enough multiplier can produce period of 0x3FFFFFFF bytes. Golden ratio here produces again much shorter period.

Never tested the 64-bit primes - too computationally expensive.

Is period important for my hash? And where to find a good 64-bit HASH_PRIMES and how to test such stuff?