Loops do not "kill" code. I do not know a definition of "computationally better", but "faster" is clear. Can you provide a set of inputs, which are relevant for your work? If I invent some inputs, they might be not relevant for your needs.
Note that:
N = 1:100
for n = N
...
end
is less efficient than
for n = 1:100
...
end
length(comb_n) is prone to bugs, because it uses the longest dimension. Use size(comb_n, 1) if the 1st dimension is meant.
Do I see correctly, that number_surrogates equals sum(numbers)? And is numbers the length of the first dimension of the last 4 inputs? Then the first 2 inputs are redundant and should be omitted for clarity.
"value_i and value_c are matrices" - then nchoosek(value_i,numbers(2)) will fail, because nchhosek does not accept matrices as first input. This means, that the posted code is not running, the inputs and the outputs are not clearly defined and the purpose of the code is not exactly defined. In consequence it is not clear, what your questions is: instead of an alternative you might be looking for a working method. Please clarify this to allow us to help you.
A cleaned version of your code - just with nicer names for variables, but not working also:
function [cn, ci, cc, ca, comb] = fcn(n, nSurr, vn, vi, vc, va)
cn = nchoosek(single(vn), n(1));
ci = nchoosek(single(vi), n(2)); % Not working for matrices ?!
cc = nchoosek(single(vc), n(3)); % Not working for matrices ?!
ca = nchoosek(single(va), n(4));
[scn1, scn2] = size(cn);
[sci1, sci2] = size(ci);
[scc1, scc2] = size(cc);
[sca1, sca2] = size(ca);
comb = zeros(scn1 * sci1 * scc1 * sca1, nSurr, 'single');
index = 0;
for in = 1:scn1
for ii = 1:sci1
for ic = 1:scc1
for ia = 1:sca1
index = index + 1;
comb(index, :) = [cn(in,:), ci(ii,:), cc(ic,:), ca(ia,:)];
end
end
end
end
end
