function y = fft43(x,u,ip,op) % y = fft43(x,u,ip,op) % y : the 43 point DFT of x % u : a vector of precomputed multiplicative constants % ip : input permutation % op : ouput permutation y = zeros(43,1); x = x(ip); % input permutation x(2:43) = KRED([2,3,7],[1,1,1],3,x(2:43)); % reduction operations y(1) = x(1)+x(2); % DC term calculation % -------------------- block : 1 ------------------------------------------------- y(2) = x(2)*u(1); % -------------------- block : 2 ------------------------------------------------- y(3) = x(3)*u(2); % -------------------- block : 3 ------------------------------------------------- v = ID2I(1,1,x(4:5)); % v = (I(1) kron D2 kron I(1)) * x(4:5) v = v.*u(3:5); y(4:5) = ID2tI(1,1,v); % y(4:5) = (I(1) kron D2' kron I(1)) * v % -------------------- block : 6 = 2 * 3 ----------------------------------------- v = ID2I(1,1,x(6:7)); % v = (I(1) kron D2 kron I(1)) * x(6:7) v = v.*u(6:8); y(6:7) = ID2tI(1,1,v); % y(6:7) = (I(1) kron D2' kron I(1)) * v % -------------------- block : 7 ------------------------------------------------- v = ID3I(2,1,x(8:13)); % v = (I(2) kron D3 kron I(1)) * x(8:13) v = ID2I(1,5,v); % v = (I(1) kron D2 kron I(5)) * v v = v.*u(9:23); v = ID2tI(1,5,v); % v = (I(1) kron D2' kron I(5)) * v y(8:13) = ID3tI(2,1,v); % y(8:13) = (I(2) kron D3' kron I(1)) * v % -------------------- block : 14 = 2 * 7 ---------------------------------------- v = ID3I(2,1,x(14:19)); % v = (I(2) kron D3 kron I(1)) * x(14:19) v = ID2I(1,5,v); % v = (I(1) kron D2 kron I(5)) * v v = v.*u(24:38); v = ID2tI(1,5,v); % v = (I(1) kron D2' kron I(5)) * v y(14:19) = ID3tI(2,1,v); % y(14:19) = (I(2) kron D3' kron I(1)) * v % -------------------- block : 21 = 3 * 7 ---------------------------------------- v = ID3I(4,1,x(20:31)); % v = (I(4) kron D3 kron I(1)) * x(20:31) v = ID2I(1,10,v); % v = (I(1) kron D2 kron I(10)) * v v = ID2I(3,5,v); % v = (I(3) kron D2 kron I(5)) * v v = v.*u(39:83); v = ID2tI(1,15,v); % v = (I(1) kron D2' kron I(15)) * v v = ID2tI(2,5,v); % v = (I(2) kron D2' kron I(5)) * v y(20:31) = ID3tI(4,1,v); % y(20:31) = (I(4) kron D3' kron I(1)) * v % -------------------- block : 42 = 2 * 3 * 7 ------------------------------------ v = ID3I(4,1,x(32:43)); % v = (I(4) kron D3 kron I(1)) * x(32:43) v = ID2I(1,10,v); % v = (I(1) kron D2 kron I(10)) * v v = ID2I(3,5,v); % v = (I(3) kron D2 kron I(5)) * v v = v.*u(84:128); v = ID2tI(1,15,v); % v = (I(1) kron D2' kron I(15)) * v v = ID2tI(2,5,v); % v = (I(2) kron D2' kron I(5)) * v y(32:43) = ID3tI(4,1,v); % y(32:43) = (I(4) kron D3' kron I(1)) * v % -------------------------------------------------------------------------------- y(2) = y(1)+y(2); % DC term calculation y(2:43) = tKRED([2,3,7],[1,1,1],3,y(2:43)); % transpose reduction operations y = y(op); % output permutation % For complex data - % Total Number of Real Multiplications : 256 % Total Number of Real Additions: 1440