I have two matrices in the form of the variables `A`

and `b`

that are inputs
to my matlab function (posted below). **I would like to calculate the
significant figures used for the matrix inverse operation (matrix division)
from the result A, b matrices. However, I have no idea where to start
(matlab or mathematically) to go about this approach. Help?**

More context, using a square linear system `(Ax=b)`

and I am seeing if its
singular or nonsingular and trying to find a solution(s).

```
% x = answer
% y = 0 if no solution, 1 if nonsingular, 2 if many solutions
% z = p is number of sig figs
%
function [ x, y, z ] = squareLinSysSolv(A, b)
if det(A) == 0
% Matrix is singular and therefor many solutions
x = A\b;
y = 0; % Used as place holder to compile
z = 5; % Used as place holder to compile
elseif det(A) ~= 0
% Matrix does not equal to zero (perhaps a number very close to it or
% far from it) and therefor has a unique solution.
x = A\b;
y = 1; % Used as place holder to compile
z = 5; % Used as place holder to compile
end
end
```

**Edit:**
To make it a bit clear, *z should be some integer which approximates (ceiling or floor value) a decimal number of significant figures at which A\b were calculated at.*

**Test Cases:**
Test/Spec sheet of what is expected. Both `A`

and `b`

are matrices and the result should be something like so.

```
A =
1.5000 2.3000 7.9000
6.1000 3.2000 13.0000
13.0000 21.0000 76.0000
b =
1
3
5
>> [x,y,z] = squareLinSysSolv(A,b)
% the result of x = A\b
x =
0.8580
3.0118
-0.9132
% determinant is not equal to zero
y =
1
% Amount of sig figs/precision in calculation
z =
15
```

z should be some integer which approximates (ceiling or floor value) a decimal number of significant figures at which– Adam Oct 25 '12 at 18:27`A\b`

were calculated at.exactlythe same answer for x? – Dan Becker Oct 25 '12 at 18:43