I am having a hard time grasping how to count flops. One moment i think i get it, and the next it makes no sense to me. Some help explaining this would greatly be appreciated. i have looked at all other posts about this topic and none have completely explained in a programming language i am familiar with. (i know some MATLAB and FORTRAN).

Here is an example from one of my books of what i am trying to do: for the following piece of code, the total number of flops can be written as: (n*(n-1)/2)+(n*(n+1)/2) which is equivalent to: n^2 + O(n)

```
[m,n]=size(A)
nb=n+1;
Aug=[A b];
x=zeros(n,1);
x(n)=Aug(n,nb)/Aug(n,n);
for i=n-1:-1:1
x(i) = (Aug(i,nb)-Aug(i,i+1:n)*x(i+1:n))/Aug(i,i);
end
```

I am trying to apply the same principle above to find the total number of flops as a function of the number of equations "n" in the following code (MATLAB).

```
% e = subdiagonal vector
% f = diagonal vector
% g = superdiagonal vector
% r = right hand side vector
% x = solution vector
n=length(f);
% forward elimination
for k = 2:n
factor = e(k)/f(k‐1);
f(k) = f(k) – factor*g(k‐1);
r(k) = r(k) – factor*r(k‐1);
end
% back substitution
x(n) = r(n)/f(n);
for k = n‐1:‐1:1
x(k) = (r(k)‐g(k)*x(k+1))/f(k);
end
```

`k`

, not`x`

. Did you run this code? – Eitan T Mar 27 '13 at 22:55n? Would a graphical visualization suffice? – Eitan T Mar 27 '13 at 23:08