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I have two diagonal matrices. I am trying to build a larger block diagonal matrix from them. For example if I had this:

D = diag(zeros(3,1)+1)

D =

     1     0     0
     0     1     0
     0     0     1


E = diag(zeros(2,1)+2, -1) + diag(zeros(2,1)+2, +1) + diag(zeros(3,1)+4)

E =

     4     2     0
     2     4     2
     0     2     4

I have an equation that says A*U = X

Where A is

[E D 0


0 D E]

This is for 3x3. 5x5 would look like this:

A =

    [E D 0 0 0 

    D E D 0 0 

    0 D E D 0

    0 0 D E D

    0 0 0 D E]

A would be another diagonal matrix consisting of these matrices. I need to produce a 40x40 and it would take a VERY LONG TIME to do manually, of course.

How can I define that? I haven't figured out how to use blkdiag to construct.

share|improve this question
How does A have 40 rows when E and D have only 3 ? – High Performance Mark Sep 16 '13 at 16:21
Have you tried [E, D, zeros(size(E); D, E, D; zeros(size(E)), D, E]? – Eitan T Sep 16 '13 at 16:23
@High Performance Mark - Right, so I explained poorly. In my example all of them are 3x3. In my real example, all of them are 40x40. – Kyle Wright Sep 16 '13 at 16:23


D = eye(40);

E = toeplitz([4 2 zeros(1,38)]);

oh = zeros(40);


A = [E D oh;D E D;oh D E]

should produce the block matrix you seek.

share|improve this answer
Interesting. I'm not familiar with these functions, specifically toeplitz, how would I use that in the 40x40 case? – Kyle Wright Sep 16 '13 at 16:29
Thanks very much for the help, friend. – Kyle Wright Sep 16 '13 at 16:46
Okay so I confess that I accepted this answer without fully understanding. This does not seem to work unless it is a 3x3 unless I am missing something. For example, to change it to a 5x5 my code reads thusly: A = [A1, A2, zero_matrix, zero_matrix, zero_matrix; A2, A1, A2, zero_matrix, zero_matrix; zero_matrix, A2, A1, A2, zero_matrix; zero_matrix, zero_matrix, A2, A1, A2; zero_matrix, zero_matrix, zero_matrix, A2, A1]; Definitely looking to speed this up or understand your answer better. – Kyle Wright Sep 16 '13 at 20:35
Now I don't know what you are trying to do. I suggest you edit your question to make it properly represent what you want to know; posting a question which approximates your real question will get you, at best, only approximate answers to your real question. And edit your question, adding long explanations in comments isn't very helpful to your readers. – High Performance Mark Sep 17 '13 at 9:08
up vote 0 down vote accepted

I solved this on my own manually because I could never find a Matlab function to help me.

        for n = 1:Distance_Resolution
            A(((n-1)*Distance_Resolution +1):n*Distance_Resolution, ((n-1)*Distance_Resolution +1):n*Distance_Resolution) = A1;
            if n == Distance_Resolution
                A((n*Distance_Resolution+1):(n+1)*(Distance_Resolution), ((n-1)*Distance_Resolution+1:n*Distance_Resolution)) = A2;
                A((n-1)*Distance_Resolution+1:n*Distance_Resolution, (n*Distance_Resolution+1):(n+1)*(Distance_Resolution)) = A2;

This will produce a block matrix that has the above specified demands and is of length Distance_Resolution x Distance_Resolution x Distance_Resolution. I defined A1 and A2 through help from above poster (Fo is just a constant here):

vector = zeros(Distance_Resolution,1) - Fo;
A2 = diag(vector);
A1 = toeplitz([1+4*Fo, -Fo, zeros(1,Distance_Resolution-2)]);

This is a workable code snippet, but I am still looking for a smarter way to code it.

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