You can use `dlmwrite`

for writing delimited ASCII data:

```
>> filename = "weights.txt";
>> weights = rand(3,3);
>> dlmwrite(filename, weights)
>> type weights.txt
0.16218,0.52853,0.26297
0.79428,0.16565,0.65408
0.31122,0.60198,0.68921
```

By default this is comma-delimited, but you can pass your own delimiter as the third argument.

### Edit:

Well, MATLAB will let you save arrays of any dimensions with `dlmwrite`

, and you can read the data back with `dlmread`

. But, as carandraug points out, the ASCII representation will be at most 2D (MATLAB will flatten the extra dimensions). You can still recover this information if you also save the shape of the exported matrix somewhere:

```
>> shape = "shape.txt";
>> weights = rand(3,3,3);
>> dlmwrite(filename, weights, 'precision', 17)
>> dlmwrite(shape, size(weights))
>> M = reshape(dlmread(filename), dlmread(shape));
>> all(M(:) == weights(:))
ans =
1
```

This is, of course, a little cumbersome compared to just using MATLAB's native `save weights; load weights`

.