I've stumbled upon the weird way (in my view) that Matlab is dealing with empty matrices. For example, if two empty matrices are multiplied the result is:

```
zeros(3,0)*zeros(0,3)
ans =
0 0 0
0 0 0
0 0 0
```

Now, this already took me by surprise, however, a quick search got me to the link above, and I got an explanation of the somewhat twisted logic of why this is happening.

**However**, nothing prepared me for the following observation. I asked myself, how efficient is this type of multiplication vs just using `zeros(n)`

function, say for the purpose of initialization? I've used `timeit`

to answer this:

```
f=@() zeros(1000)
timeit(f)
ans =
0.0033
```

vs:

```
g=@() zeros(1000,0)*zeros(0,1000)
timeit(g)
ans =
9.2048e-06
```

Both have the same outcome of 1000x1000 matrix of zeros of class `double`

, but the empty matrix multiplication one is ~350 times faster! (a similar result happens using `tic`

and `toc`

and a loop)

How can this be? are `timeit`

or `tic,toc`

bluffing or have I found a faster way to initialize matrices?
(this was done with matlab 2012a, on a win7-64 machine, intel-i5 650 3.2Ghz...)

**EDIT:**

After reading your feedback, I have looked more carefully into this peculiarity, and tested on 2 different computers (same matlab ver though 2012a) a code that examine the run time vs the size of matrix n. This is what I get:

The code to generate this used `timeit`

as before, but a loop with `tic`

and `toc`

will look the same. So, for small sizes, `zeros(n)`

is comparable. However, around `n=400`

there is a jump in performance for the empty matrix multiplication. The code I've used to generate that plot was:

```
n=unique(round(logspace(0,4,200)));
for k=1:length(n)
f=@() zeros(n(k));
t1(k)=timeit(f);
g=@() zeros(n(k),0)*zeros(0,n(k));
t2(k)=timeit(g);
end
loglog(n,t1,'b',n,t2,'r');
legend('zeros(n)','zeros(n,0)*zeros(0,n)',2);
xlabel('matrix size (n)'); ylabel('time [sec]');
```

Are any of you experience this too?

**EDIT #2:**

Incidentally, empty matrix multiplication is not needed to get this effect. One can simply do:

```
z(n,n)=0;
```

where n> some threshold matrix size seen in the previous graph, and get the **exact** efficiency profile as with empty matrix multiplication (again using timeit).

Here's an example where it improves efficiency of a code:

```
n = 1e4;
clear z1
tic
z1 = zeros( n );
for cc = 1 : n
z1(:,cc)=cc;
end
toc % Elapsed time is 0.445780 seconds.
%%
clear z0
tic
z0 = zeros(n,0)*zeros(0,n);
for cc = 1 : n
z0(:,cc)=cc;
end
toc % Elapsed time is 0.297953 seconds.
```

However, using `z(n,n)=0;`

instead yields similar results to the `zeros(n)`

case.

quadraticallyfast. – Acorbe Jan 5 '13 at 10:56