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I am building an inverted page table, i.e. a mapping of virtual addresses to physical addresses. The relevant part is that I have to map 2^20 userspace virtual pages (integer address values) into a table corresponding to the number of physical ram frames available, which on my system will be anywhere from 80 available frames to around 16 384.

So, my hash function will need to be able to map 1,048,576 possible entries to 80 up to 130,000 spots. My system might be configured with different amounts of ram, so it's fair to assume I always know whether my hash table is size 80, 8000, or 16384. I can choose a different algorithm for each case if need be.

At first I was thinking of using quadratic probing, because I remember hearing about it being good at reducing clustering from my algorithms class. Then I realized that I don't really care too much about clustering in my page table (why would I?), and that quadratic hashing has this nasty property that there's no guarantee of finding an empty cell once the table is more than half full! This would be terrible an essentially half my system ram.

Linear probing would work I guess. Here's a code snippet:

int _try = VPN % BitMapSize;
int j = -1; 
while (j < BitMapSize) {
      _try = (_try + j) % BitMapSize; 
      if (PageTable[_try] == 0) { //take it!
        PageTable[_try] = 1;
        return _try;
return -1; //couldn't do it

But the coding isn't the concern, just wanted to add some context. It's more what algorithms should I consider, what are their pros and cons, and should I pick different algorithms for different table sizes.

Thanks for any help.

share|improve this question
Are there any special requirements? –  Vaughn Cato Mar 16 '12 at 1:18
Just that I have to be able to allocate every spot in the page table, and hopefully when I do a reverse look up of the page table, it's pretty fast. For example if I search PageTable[4] for a virtual address ( the original 1,048,576 things) because that's what my hash function gives me, and the thing I'm looking for isn't there, I'll hopefully find what I'm looking for in the next few searches. However I think linear probing can be bad for this. –  JDS Mar 16 '12 at 1:25
It really just depends on how much extra space you allocate. Typically you want to have 20% unused entries for the lookup to be fast. –  Vaughn Cato Mar 16 '12 at 1:42
@YoungMoney: try to ask on Computer Science SE site cs.stackexchange.com. You may have better luck there. –  pad Mar 25 '12 at 11:35

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