I am trying to solve a random linear system with a large square system matrix using Octave and Julia. Because the syntax of Octave and Julia are quite similar I run the following code in both a Octave shell and a Julia shell:

```
N = 5000;
A = rand(N, N);
b = rand(N, 1);
x = A\b;
r = norm(A*x - b)/norm(b)
```

Octave returns r in the neighborhood of 1e-12. Julia on the other hand returns an error:

```
ERROR: stack overflow
in getrf! at linalg/lapack.jl:342
in LU at linalg/factorization.jl:134
in \ at linalg/dense.jl:518
```

The backslash operator does work in Julia for smaller systems (e.g. 10 x 10), however a 50 x 50 system already gives an error. As far as I know both Octave and Julia use BLAS and LAPACK, so I am rather confused why Julia is unable to perform this task. Can someone please tell me how I can fix this?

**System information**

- Linux Mint 13 KDE, 64bit
- Installed LLVM 3.2 and Clang 3.2 from a PPA:
**ppa:kxstudio-team/builds** - Compiled Julia 0.2.0-2429.rb0a9ea79 from source

**EDIT**

The problem has been solved now that OpenBLAS 0.2.7 is out. When re-compiling Julia make sure that Julia either uses a system version of OpenBLAS >=0.2.7 or that Julia internally compiles its own version of OpenBLAS >=0.2.7.

`[L,U]=lu(A);y=L\b;x=U\y;`

? – horchler Jul 4 '13 at 23:44