One alternative to the tree-method: Use the Morton-Order to encode your data.
In three dimension it goes like this: Take the coordinate components and interleave each bit two zero bits. Here shown in binary: 11111b becomes 1001001001b
A C-function to do this looks like this (shown for clarity and only for 11 bits):
int morton3 (int a)
int result = 0;
for (i=0; i<11; i++)
// check if the i'th bit is set.
int bit = a&(1<<i);
// if so set the 3*i'th bit in the result:
result |= 1<<(i*3);
You can use this function to combine your positions like this:
index = morton3 (position.x) +
morton3 (position.y)*2 +
This turns your three dimensional index into a one dimensional one. Best part of it: Values that are close in 3D space are close in 1D space as well. If you access values close to each other frequently you will also get a very nice speed-up because the morton-order encoding is optimal in terms of cache locality.
For morton3 you better not use the code above. Use a small table to look up 4 or 8 bits at a time and combine them together.
Hope it helps,