Colls Octave Assignment: Difference between revisions
Jump to navigation
Jump to search
No edit summary |
No edit summary |
||
| (6 intermediate revisions by the same user not shown) | |||
| Line 1: | Line 1: | ||
Here Are Some Linear Algebra Functions You Can Use In Octave |
Here Are Some Linear Algebra Functions You Can Use In Octave |
||
---- |
---- |
||
* balance (Eigenvalue Balancing) |
|||
* cond (Condition Number) |
|||
* dmult (computes diag(x)* A efficently) |
|||
* dot (Dot Product) |
|||
* orth (Orthonormal basis of the range space) |
|||
* pinv (pseudoinverse) |
|||
* det (Determinant) |
|||
For Example when solving a simple matrix to find its determinant you (or any matrix for that matter): |
|||
A=[2,0,0;0,5,0;0,0,5;] |
|||
2 0 0 |
|||
0 5 0 |
|||
0 0 5 |
|||
det (A) |
|||
Then Octave will output an answer saying |
|||
ans=50 |
|||
Latest revision as of 09:51, 1 October 2010
Here Are Some Linear Algebra Functions You Can Use In Octave
- balance (Eigenvalue Balancing)
- cond (Condition Number)
- dmult (computes diag(x)* A efficently)
- dot (Dot Product)
- orth (Orthonormal basis of the range space)
- pinv (pseudoinverse)
- det (Determinant)
For Example when solving a simple matrix to find its determinant you (or any matrix for that matter):
A=[2,0,0;0,5,0;0,0,5;]
2 0 0 0 5 0 0 0 5
det (A) Then Octave will output an answer saying
ans=50