Start with simplifying your code: why do you calculate v1 and v2 and the angle twice? Change:
v1=water_mol(di).atom_data(k,3:5)-water_mol(di).atom_data(2,3:5);%vector connecting donor hydrogen-donor oxygen
v2=water_mol(di).atom_data(k,3:5)-water_mol(ai).atom_data(2,3:5);%vector connecting donor hydrogen-acceptor oxygen
angle=acos(dot(v1, v2) / (norm(v1) * norm(v2)));
angle_ww(cnt_steps,hb_ww_count)=radtodeg(angle);
if sum((water_mol(di).atom_data(k,3:5)-water_mol(ai).atom_data(2,3:5)).^2)<=dist_hb^2 %distance between donor hydrogen and acceptor oxygen
v1=water_mol(di).atom_data(k,3:5)-water_mol(di).atom_data(2,3:5);%vector connecting donor hydrogen-donor oxygen
v2=water_mol(di).atom_data(k,3:5)-water_mol(ai).atom_data(2,3:5);%vector connecting donor hydrogen-acceptor oxygen
angle=acos(dot(v1, v2) / (norm(v1) * norm(v2)));
to:
% Before the loops:
dist_hb2 = dist_hb ^ 2; % Once only
len = floor(length(water)/3);
n = 4 * (len - 1) * len / 2;
hb_ww = zeros(cnt_steps, n); % Pre-allocate!!!
angle_ww = zeros(cnt_steps, n);
...
v1 = water_mol(di).atom_data(k,3:5) - water_mol(di).atom_data(2,3:5);%vector connecting donor hydrogen-donor oxygen
v2 = water_mol(di).atom_data(k,3:5) - water_mol(ai).atom_data(2,3:5);%vector connecting donor hydrogen-acceptor oxygen
angle = acos(dot(v1, v2) / (norm(v1) * norm(v2))); % Not accurate, prefer atan2
angle_ww(cnt_steps, hb_ww_count) = angle * (180 / pi);
if sum(v2 .^ 2) <= dist_hb2 %distance between donor hydrogen and acceptor oxygen
if angle<=angle_hb
hb_ww(cnt_steps, hb_ww_count)=1;
end
end
end
With avoiding repeated calculation and a proper pre-allocation the code is at least efficient without parallelizing.
