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| author | Eugeniy Mikhailov <evgmik@gmail.com> | 2013-03-20 16:53:39 -0400 |
|---|---|---|
| committer | Eugeniy Mikhailov <evgmik@gmail.com> | 2013-03-20 16:53:39 -0400 |
| commit | 99f39dc1423adc360a04344689a83d2f788aae33 (patch) | |
| tree | 2731d3687b663d27fad56d97c3e20fe05a5949f9 /mode_match.m | |
| parent | 4943c1cb5d453dd08aab0ec7000f094779178c94 (diff) | |
| download | mode_match-99f39dc1423adc360a04344689a83d2f788aae33.tar.gz mode_match-99f39dc1423adc360a04344689a83d2f788aae33.zip | |
Matt's changes to use faster beam propagator
Diffstat (limited to 'mode_match.m')
| -rw-r--r-- | mode_match.m | 26 |
1 files changed, 7 insertions, 19 deletions
diff --git a/mode_match.m b/mode_match.m index dafe209..0a36332 100644 --- a/mode_match.m +++ b/mode_match.m @@ -1,4 +1,4 @@ -function [ final_possible_lens_placement, initial_possible_lens_placement, possible_lens_set, possible_sample_energy] = mode_match( q0, qf, Ltot, lambda, lens_permutations, lens_width ) +function [ possible_lens_placement, possible_lens_set, possible_sample_energy] = mode_match( q0, qf, Ltot, lambda, lens_permutations ) %Shuffles lenses into random positions and stores possible solutions % Shuffles over entire lens permutation array for n_shuffles times. % Afterwards, solutions are sorted by Energy and truncated to n_truncate @@ -6,10 +6,6 @@ function [ final_possible_lens_placement, initial_possible_lens_placement, possi n_perms = size(lens_permutations,1); n_shuffles=20; %number of random placements of lenses -initial_MaxFunEvals = 1e8; -initial_MaxIter = 10; -final_MaxFunEvals = 1e8; -final_MaxIter = 100; %Initialize sample arrays N = n_perms * n_shuffles; @@ -18,33 +14,25 @@ possible_lens_set = zeros(N,3); possible_sample_energy = zeros(N,1); initial_rand_lens_placement=zeros(N,3); +lens_size = .03; % physical size of the lens + for ip = 1:n_perms f3=lens_permutations(ip,3); x3=Ltot-f3; % last lense transfer collimated region to focused spot for is = 1:n_shuffles possible_lens_set((ip-1)*n_shuffles + is,:) = lens_permutations(ip,:); - initial_rand_lens_placement_tmp = sort(lens_width+(x3-2*lens_width)*rand(1,2)); + initial_rand_lens_placement_tmp = sort(lens_size+(x3-2*lens_size)*rand(1,2)); initial_rand_lens_placement((ip-1)*n_shuffles + is,:) = [initial_rand_lens_placement_tmp, x3]; end end - - - parfor i = 1:N + fitness_simplified=@(x) fitness(q0, qf, Ltot, x, possible_lens_set(i,:), lambda ); - [ x_sol, energy ] = find_min(i, initial_rand_lens_placement, fitness_simplified, initial_MaxFunEvals, initial_MaxIter ) - - initial_possible_lens_placement(i,:) =x_sol; + [x_sol, energy]=fminsearch(fitness_simplified, initial_rand_lens_placement(i,:), optimset('TolFun',1e-5,'MaxFunEvals',1e8,'MaxIter',200)); -end - -parfor i = 1:N - fitness_simplified=@(x) fitness(q0, qf, Ltot, x, possible_lens_set(i,:), lambda ); - [ x_sol, energy ] = find_min(i, initial_possible_lens_placement, fitness_simplified, final_MaxFunEvals, final_MaxIter ) - - final_possible_lens_placement(i,:) =x_sol; + possible_lens_placement(i,:) =x_sol; possible_sample_energy(i) = energy; end |