# Looking for a good space-partitioning data structure to generate millions of atomic bonds quickly from

I'm performing some MD simulations involving systems of millions of atoms.

I have written some code to generate a file which is just a listing of XYZ atom coordinates. Now I need to generate bonds between the atoms. If two atoms are within a certain distance of each other, that is considered a bond.

Example XYZ file:

``````1 0 0
2 0 0
7 0 0
10 0 0
9 0 0
``````

So I've got five atoms. If my distance threshold is 2 units, then my bond listing will be:

``````1 2
3 5
4 5
``````

(where the numbers correspond to the index of the coordinate in the XYZ file).

The naive approach to generate this list is just:

``````for i = 1:numAtoms
for j = i+1:numAtoms
if distance(atom[i], atom[j]) < 2
bonds.push [i, j]
``````

However, this quickly hits an algorithmic limit and is slow even in highly optimized C for millions of atoms, at least for as frequently as I'll be doing this process.

The only experience I have with space-partitioning data structures is with kd-trees when I wrote a photon mapper once, so I don't really know what the best solution to this problem is. I'm sure there's probably something out there that's optimal for this though.

I should also mention that my simulation box is periodic, meaning that an atom at (0.5, 0, 0) will bond to an atom at (boxWidth - 0.5, 0, 0) with a distance threshold such as 2.

-
You could use the exact same kd-tree you used from your photon mapper. You would then search for all particles that within the threshold radius from a particle (for each particle). You would also have to modify the search algorithm to take into account the boundary conditions. This seems the easiest to implement in your case since you have the kd-tree data structure already. –  Grieverheart Jan 31 '13 at 0:55

Obviously you do a preliminary pass and create a list (or vector) of atoms belonging to each cell. You can store the lists in a `map` indexed by the 3D grid co-ordinate. Then for each atom, you can just lookup the local lists and do the bond tests.